// This is an open source non-commercial project. Dear PVS-Studio, please check // it. PVS-Studio Static Code Analyzer for C, C++ and C#: http://www.viva64.com // User-settable options. Checklist for adding a new option: // - Put it in options.lua // - For a global option: Add a variable for it in option_defs.h. // - For a buffer or window local option: // - Add a BV_XX or WV_XX entry to option_defs.h // - Add a variable to the window or buffer struct in buffer_defs.h. // - For a window option, add some code to copy_winopt(). // - For a window string option, add code to check_winopt() // and clear_winopt(). If setting the option needs parsing, // add some code to didset_window_options(). // - For a buffer option, add some code to buf_copy_options(). // - For a buffer string option, add code to check_buf_options(). // - If it's a numeric option, add any necessary bounds checks to // set_num_option(). // - If it's a list of flags, add some code in do_set(), search for WW_ALL. // - Add documentation! doc/options.txt, and any other related places. // - Add an entry in runtime/optwin.vim. #define IN_OPTION_C #include #include #include #include #include #include #include "nvim/arglist.h" #include "nvim/ascii.h" #include "nvim/buffer.h" #include "nvim/change.h" #include "nvim/charset.h" #include "nvim/cursor_shape.h" #include "nvim/decoration_provider.h" #include "nvim/diff.h" #include "nvim/drawscreen.h" #include "nvim/edit.h" #include "nvim/eval.h" #include "nvim/eval/typval.h" #include "nvim/ex_docmd.h" #include "nvim/ex_getln.h" #include "nvim/ex_session.h" #include "nvim/fileio.h" #include "nvim/fold.h" #include "nvim/garray.h" #include "nvim/getchar.h" #include "nvim/hardcopy.h" #include "nvim/highlight.h" #include "nvim/highlight_group.h" #include "nvim/indent.h" #include "nvim/indent_c.h" #include "nvim/keycodes.h" #include "nvim/locale.h" #include "nvim/macros.h" #include "nvim/mapping.h" #include "nvim/mbyte.h" #include "nvim/memfile.h" #include "nvim/memline.h" #include "nvim/memory.h" #include "nvim/message.h" #include "nvim/mouse.h" #include "nvim/move.h" #include "nvim/normal.h" #include "nvim/ops.h" #include "nvim/option.h" #include "nvim/optionstr.h" #include "nvim/os/os.h" #include "nvim/os_unix.h" #include "nvim/path.h" #include "nvim/popupmenu.h" #include "nvim/regexp.h" #include "nvim/screen.h" #include "nvim/search.h" #include "nvim/spell.h" #include "nvim/spellfile.h" #include "nvim/spellsuggest.h" #include "nvim/strings.h" #include "nvim/syntax.h" #include "nvim/ui.h" #include "nvim/ui_compositor.h" #include "nvim/undo.h" #include "nvim/vim.h" #include "nvim/window.h" #ifdef MSWIN # include "nvim/os/pty_conpty_win.h" #endif #include "nvim/api/extmark.h" #include "nvim/api/private/helpers.h" #include "nvim/api/vim.h" #include "nvim/lua/executor.h" #include "nvim/os/input.h" #include "nvim/os/lang.h" static char e_unknown_option[] = N_("E518: Unknown option"); static char e_not_allowed_in_modeline[] = N_("E520: Not allowed in a modeline"); static char e_not_allowed_in_modeline_when_modelineexpr_is_off[] = N_("E992: Not allowed in a modeline when 'modelineexpr' is off"); static char e_key_code_not_set[] = N_("E846: Key code not set"); static char e_number_required_after_equal[] = N_("E521: Number required after ="); static char e_preview_window_already_exists[] = N_("E590: A preview window already exists"); static char *p_term = NULL; static char *p_ttytype = NULL; // Saved values for when 'bin' is set. static int p_et_nobin; static int p_ml_nobin; static long p_tw_nobin; static long p_wm_nobin; // Saved values for when 'paste' is set. static int p_ai_nopaste; static int p_et_nopaste; static long p_sts_nopaste; static long p_tw_nopaste; static long p_wm_nopaste; static char *p_vsts_nopaste; // options[] is initialized here. // The order of the options MUST be alphabetic for ":set all" and findoption(). // All option names MUST start with a lowercase letter (for findoption()). // Exception: "t_" options are at the end. // The options with a NULL variable are 'hidden': a set command for them is // ignored and they are not printed. #ifdef INCLUDE_GENERATED_DECLARATIONS # include "options.generated.h" #endif #define OPTION_COUNT ARRAY_SIZE(options) typedef enum { OP_NONE = 0, OP_ADDING, ///< "opt+=arg" OP_PREPENDING, ///< "opt^=arg" OP_REMOVING, ///< "opt-=arg" } set_op_T; #ifdef INCLUDE_GENERATED_DECLARATIONS # include "option.c.generated.h" #endif void set_init_tablocal(void) { // susy baka: cmdheight calls itself OPT_GLOBAL but is really tablocal! int ch_idx = findoption("cmdheight"); p_ch = (long)options[ch_idx].def_val; } /// Initialize the options, first part. /// /// Called only once from main(), just after creating the first buffer. /// If "clean_arg" is true, Nvim was started with --clean. /// /// NOTE: ELOG() etc calls are not allowed here, as log location depends on /// env var expansion which depends on expression evaluation and other /// editor state initialized here. Do logging in set_init_2 or later. void set_init_1(bool clean_arg) { int opt_idx; langmap_init(); // Find default value for 'shell' option. // Don't use it if it is empty. { const char *shell = os_getenv("SHELL"); if (shell != NULL) { if (vim_strchr(shell, ' ') != NULL) { const size_t len = strlen(shell) + 3; // two quotes and a trailing NUL char *const cmd = xmalloc(len); snprintf(cmd, len, "\"%s\"", shell); set_string_default("sh", cmd, true); } else { set_string_default("sh", (char *)shell, false); } } } // Set the default for 'backupskip' to include environment variables for // temp files. { #ifdef UNIX static char *(names[4]) = { "", "TMPDIR", "TEMP", "TMP" }; #else static char *(names[3]) = { "TMPDIR", "TEMP", "TMP" }; #endif garray_T ga; opt_idx = findoption("backupskip"); ga_init(&ga, 1, 100); for (size_t n = 0; n < ARRAY_SIZE(names); n++) { bool mustfree = true; char *p; #ifdef UNIX if (*names[n] == NUL) { # ifdef __APPLE__ p = "/private/tmp"; # else p = "/tmp"; # endif mustfree = false; } else #endif { p = vim_getenv(names[n]); } if (p != NULL && *p != NUL) { // First time count the NUL, otherwise count the ','. const size_t len = strlen(p) + 3; char *item = xmalloc(len); xstrlcpy(item, p, len); add_pathsep(item); xstrlcat(item, "*", len); if (find_dup_item(ga.ga_data, (char_u *)item, options[opt_idx].flags) == NULL) { ga_grow(&ga, (int)len); if (!GA_EMPTY(&ga)) { STRCAT(ga.ga_data, ","); } STRCAT(ga.ga_data, p); add_pathsep(ga.ga_data); STRCAT(ga.ga_data, "*"); ga.ga_len += (int)len; } xfree(item); } if (mustfree) { xfree(p); } } if (ga.ga_data != NULL) { set_string_default("bsk", ga.ga_data, true); } } { char_u *cdpath; char_u *buf; int i; int j; // Initialize the 'cdpath' option's default value. cdpath = (char_u *)vim_getenv("CDPATH"); if (cdpath != NULL) { buf = xmalloc(2 * STRLEN(cdpath) + 2); { buf[0] = ','; // start with ",", current dir first j = 1; for (i = 0; cdpath[i] != NUL; i++) { if (vim_ispathlistsep(cdpath[i])) { buf[j++] = ','; } else { if (cdpath[i] == ' ' || cdpath[i] == ',') { buf[j++] = '\\'; } buf[j++] = cdpath[i]; } } buf[j] = NUL; opt_idx = findoption("cdpath"); if (opt_idx >= 0) { options[opt_idx].def_val = (char *)buf; options[opt_idx].flags |= P_DEF_ALLOCED; } else { xfree(buf); // cannot happen } } xfree(cdpath); } } #if defined(MSWIN) || defined(MAC) // Set print encoding on platforms that don't default to latin1 set_string_default("printencoding", "hp-roman8", false); #endif // 'printexpr' must be allocated to be able to evaluate it. set_string_default("printexpr", #ifdef UNIX "system(['lpr'] " "+ (empty(&printdevice)?[]:['-P', &printdevice]) " "+ [v:fname_in])" ". delete(v:fname_in)" "+ v:shell_error", #elif defined(MSWIN) "system(['copy', v:fname_in, " "empty(&printdevice)?'LPT1':&printdevice])" ". delete(v:fname_in)", #else "", #endif false); char *backupdir = stdpaths_user_state_subpath("backup", 2, true); const size_t backupdir_len = strlen(backupdir); backupdir = xrealloc(backupdir, backupdir_len + 3); memmove(backupdir + 2, backupdir, backupdir_len + 1); memmove(backupdir, ".,", 2); set_string_default("backupdir", backupdir, true); set_string_default("viewdir", stdpaths_user_state_subpath("view", 2, true), true); set_string_default("directory", stdpaths_user_state_subpath("swap", 2, true), true); set_string_default("undodir", stdpaths_user_state_subpath("undo", 2, true), true); // Set default for &runtimepath. All necessary expansions are performed in // this function. char *rtp = runtimepath_default(clean_arg); if (rtp) { set_string_default("runtimepath", rtp, true); // Make a copy of 'rtp' for 'packpath' set_string_default("packpath", rtp, false); rtp = NULL; // ownership taken } // Set all the options (except the terminal options) to their default // value. Also set the global value for local options. set_options_default(0); curbuf->b_p_initialized = true; curbuf->b_p_ar = -1; // no local 'autoread' value curbuf->b_p_ul = NO_LOCAL_UNDOLEVEL; check_buf_options(curbuf); check_win_options(curwin); check_options(); // Set all options to their default value set_options_default(OPT_FREE); // set 'laststatus' last_status(false); // Must be before option_expand(), because that one needs vim_isIDc() didset_options(); // Use the current chartab for the generic chartab. This is not in // didset_options() because it only depends on 'encoding'. init_spell_chartab(); // Expand environment variables and things like "~" for the defaults. // If option_expand() returns non-NULL the variable is expanded. This can // only happen for non-indirect options. // Also set the default to the expanded value, so ":set" does not list // them. // Don't set the P_ALLOCED flag, because we don't want to free the // default. for (opt_idx = 0; options[opt_idx].fullname; opt_idx++) { if (options[opt_idx].flags & P_NO_DEF_EXP) { continue; } char *p; if ((options[opt_idx].flags & P_GETTEXT) && options[opt_idx].var != NULL) { p = _(*(char **)options[opt_idx].var); } else { p = option_expand(opt_idx, NULL); } if (p != NULL) { p = xstrdup(p); *(char **)options[opt_idx].var = p; if (options[opt_idx].flags & P_DEF_ALLOCED) { xfree(options[opt_idx].def_val); } options[opt_idx].def_val = p; options[opt_idx].flags |= P_DEF_ALLOCED; } } save_file_ff(curbuf); // Buffer is unchanged // Detect use of mlterm. // Mlterm is a terminal emulator akin to xterm that has some special // abilities (bidi namely). // NOTE: mlterm's author is being asked to 'set' a variable // instead of an environment variable due to inheritance. if (os_env_exists("MLTERM")) { set_option_value_give_err("tbidi", 1L, NULL, 0); } didset_options2(); lang_init(); // enc_locale() will try to find the encoding of the current locale. // This will be used when 'default' is used as encoding specifier // in 'fileencodings' char_u *p = enc_locale(); if (p == NULL) { // use utf-8 as 'default' if locale encoding can't be detected. p = (char_u *)xmemdupz(S_LEN("utf-8")); } fenc_default = (char *)p; #ifdef HAVE_WORKING_LIBINTL // GNU gettext 0.10.37 supports this feature: set the codeset used for // translated messages independently from the current locale. (void)bind_textdomain_codeset(PROJECT_NAME, p_enc); #endif // Set the default for 'helplang'. set_helplang_default(get_mess_lang()); } /// Set an option to its default value. /// This does not take care of side effects! /// /// @param opt_flags OPT_FREE, OPT_LOCAL and/or OPT_GLOBAL static void set_option_default(int opt_idx, int opt_flags) { char_u *varp; // pointer to variable for current option int both = (opt_flags & (OPT_LOCAL | OPT_GLOBAL)) == 0; varp = (char_u *)get_varp_scope(&(options[opt_idx]), both ? OPT_LOCAL : opt_flags); uint32_t flags = options[opt_idx].flags; if (varp != NULL) { // skip hidden option, nothing to do for it if (flags & P_STRING) { // Use set_string_option_direct() for local options to handle // freeing and allocating the value. if (options[opt_idx].indir != PV_NONE) { set_string_option_direct(NULL, opt_idx, options[opt_idx].def_val, opt_flags, 0); } else { if ((opt_flags & OPT_FREE) && (flags & P_ALLOCED)) { free_string_option(*(char **)(varp)); } *(char **)varp = options[opt_idx].def_val; options[opt_idx].flags &= ~P_ALLOCED; } } else if (flags & P_NUM) { if (options[opt_idx].indir == PV_SCROLL) { win_comp_scroll(curwin); } else { long def_val = (long)options[opt_idx].def_val; if ((long *)varp == &curwin->w_p_so || (long *)varp == &curwin->w_p_siso) { // 'scrolloff' and 'sidescrolloff' local values have a // different default value than the global default. *(long *)varp = -1; } else { *(long *)varp = def_val; } // May also set global value for local option. if (both) { *(long *)get_varp_scope(&(options[opt_idx]), OPT_GLOBAL) = def_val; } } } else { // P_BOOL *(int *)varp = (int)(intptr_t)options[opt_idx].def_val; #ifdef UNIX // 'modeline' defaults to off for root if (options[opt_idx].indir == PV_ML && getuid() == ROOT_UID) { *(int *)varp = false; } #endif // May also set global value for local option. if (both) { *(int *)get_varp_scope(&(options[opt_idx]), OPT_GLOBAL) = *(int *)varp; } } // The default value is not insecure. uint32_t *flagsp = insecure_flag(curwin, opt_idx, opt_flags); *flagsp = *flagsp & ~P_INSECURE; } set_option_sctx_idx(opt_idx, opt_flags, current_sctx); } /// Set all options (except terminal options) to their default value. /// /// @param opt_flags OPT_FREE, OPT_LOCAL and/or OPT_GLOBAL static void set_options_default(int opt_flags) { for (int i = 0; options[i].fullname; i++) { if (!(options[i].flags & P_NODEFAULT)) { set_option_default(i, opt_flags); } } // The 'scroll' option must be computed for all windows. FOR_ALL_TAB_WINDOWS(tp, wp) { win_comp_scroll(wp); } parse_cino(curbuf); } /// Set the Vi-default value of a string option. /// Used for 'sh', 'backupskip' and 'term'. /// /// @param name The name of the option /// @param val The value of the option /// @param allocated If true, do not copy default as it was already allocated. static void set_string_default(const char *name, char *val, bool allocated) FUNC_ATTR_NONNULL_ALL { int opt_idx = findoption(name); if (opt_idx >= 0) { if (options[opt_idx].flags & P_DEF_ALLOCED) { xfree(options[opt_idx].def_val); } options[opt_idx].def_val = allocated ? val : xstrdup(val); options[opt_idx].flags |= P_DEF_ALLOCED; } } // For an option value that contains comma separated items, find "newval" in // "origval". Return NULL if not found. static char_u *find_dup_item(char_u *origval, const char_u *newval, uint32_t flags) FUNC_ATTR_NONNULL_ARG(2) { int bs = 0; if (origval == NULL) { return NULL; } const size_t newlen = STRLEN(newval); for (char_u *s = origval; *s != NUL; s++) { if ((!(flags & P_COMMA) || s == origval || (s[-1] == ',' && !(bs & 1))) && STRNCMP(s, newval, newlen) == 0 && (!(flags & P_COMMA) || s[newlen] == ',' || s[newlen] == NUL)) { return s; } // Count backslashes. Only a comma with an even number of backslashes // or a single backslash preceded by a comma before it is recognized as // a separator. if ((s > origval + 1 && s[-1] == '\\' && s[-2] != ',') || (s == origval + 1 && s[-1] == '\\')) { bs++; } else { bs = 0; } } return NULL; } /// Set the Vi-default value of a number option. /// Used for 'lines' and 'columns'. void set_number_default(char *name, long val) { int opt_idx; opt_idx = findoption(name); if (opt_idx >= 0) { options[opt_idx].def_val = (char *)(intptr_t)val; } } #if defined(EXITFREE) /// Free all options. void free_all_options(void) { for (int i = 0; options[i].fullname; i++) { if (options[i].indir == PV_NONE) { // global option: free value and default value. if ((options[i].flags & P_ALLOCED) && options[i].var != NULL) { free_string_option(*(char **)options[i].var); } if (options[i].flags & P_DEF_ALLOCED) { free_string_option(options[i].def_val); } } else if (options[i].var != VAR_WIN && (options[i].flags & P_STRING)) { // buffer-local option: free global value clear_string_option((char **)options[i].var); } } free_operatorfunc_option(); } #endif /// Initialize the options, part two: After getting Rows and Columns. void set_init_2(bool headless) { // set in set_init_1 but logging is not allowed there ILOG("startup runtimepath/packpath value: %s", p_rtp); int idx; // 'scroll' defaults to half the window height. The stored default is zero, // which results in the actual value computed from the window height. idx = findoption("scroll"); if (idx >= 0 && !(options[idx].flags & P_WAS_SET)) { set_option_default(idx, OPT_LOCAL); } comp_col(); // 'window' is only for backwards compatibility with Vi. // Default is Rows - 1. if (!option_was_set("window")) { p_window = Rows - 1; } set_number_default("window", Rows - 1); (void)parse_printoptions(); // parse 'printoptions' default value } /// Initialize the options, part three: After reading the .vimrc void set_init_3(void) { parse_shape_opt(SHAPE_CURSOR); // set cursor shapes from 'guicursor' // Set 'shellpipe' and 'shellredir', depending on the 'shell' option. // This is done after other initializations, where 'shell' might have been // set, but only if they have not been set before. int idx_srr = findoption("srr"); int do_srr = (idx_srr < 0) ? false : !(options[idx_srr].flags & P_WAS_SET); int idx_sp = findoption("sp"); int do_sp = (idx_sp < 0) ? false : !(options[idx_sp].flags & P_WAS_SET); size_t len = 0; char *p = (char *)invocation_path_tail((char_u *)p_sh, &len); p = xstrnsave(p, len); { // // Default for p_sp is "| tee", for p_srr is ">". // For known shells it is changed here to include stderr. // if (path_fnamecmp(p, "csh") == 0 || path_fnamecmp(p, "tcsh") == 0) { if (do_sp) { p_sp = "|& tee"; options[idx_sp].def_val = p_sp; } if (do_srr) { p_srr = ">&"; options[idx_srr].def_val = p_srr; } } else if (path_fnamecmp(p, "sh") == 0 || path_fnamecmp(p, "ksh") == 0 || path_fnamecmp(p, "mksh") == 0 || path_fnamecmp(p, "pdksh") == 0 || path_fnamecmp(p, "zsh") == 0 || path_fnamecmp(p, "zsh-beta") == 0 || path_fnamecmp(p, "bash") == 0 || path_fnamecmp(p, "fish") == 0 || path_fnamecmp(p, "ash") == 0 || path_fnamecmp(p, "dash") == 0) { // Always use POSIX shell style redirection if we reach this if (do_sp) { p_sp = "2>&1| tee"; options[idx_sp].def_val = p_sp; } if (do_srr) { p_srr = ">%s 2>&1"; options[idx_srr].def_val = p_srr; } } xfree(p); } if (buf_is_empty(curbuf)) { int idx_ffs = findoption_len(S_LEN("ffs")); // Apply the first entry of 'fileformats' to the initial buffer. if (idx_ffs >= 0 && (options[idx_ffs].flags & P_WAS_SET)) { set_fileformat(default_fileformat(), OPT_LOCAL); } } set_title_defaults(); // 'title', 'icon' } /// When 'helplang' is still at its default value, set it to "lang". /// Only the first two characters of "lang" are used. void set_helplang_default(const char *lang) { if (lang == NULL) { return; } const size_t lang_len = strlen(lang); if (lang_len < 2) { // safety check return; } int idx = findoption("hlg"); if (idx >= 0 && !(options[idx].flags & P_WAS_SET)) { if (options[idx].flags & P_ALLOCED) { free_string_option((char *)p_hlg); } p_hlg = (char_u *)xmemdupz(lang, lang_len); // zh_CN becomes "cn", zh_TW becomes "tw". if (STRNICMP(p_hlg, "zh_", 3) == 0 && STRLEN(p_hlg) >= 5) { p_hlg[0] = (char_u)TOLOWER_ASC(p_hlg[3]); p_hlg[1] = (char_u)TOLOWER_ASC(p_hlg[4]); } else if (STRLEN(p_hlg) >= 1 && *p_hlg == 'C') { // any C like setting, such as C.UTF-8, becomes "en" p_hlg[0] = 'e'; p_hlg[1] = 'n'; } p_hlg[2] = NUL; options[idx].flags |= P_ALLOCED; } } /// 'title' and 'icon' only default to true if they have not been set or reset /// in .vimrc and we can read the old value. /// When 'title' and 'icon' have been reset in .vimrc, we won't even check if /// they can be reset. This reduces startup time when using X on a remote /// machine. void set_title_defaults(void) { int idx1; // If GUI is (going to be) used, we can always set the window title and // icon name. Saves a bit of time, because the X11 display server does // not need to be contacted. idx1 = findoption("title"); if (idx1 >= 0 && !(options[idx1].flags & P_WAS_SET)) { options[idx1].def_val = 0; p_title = 0; } idx1 = findoption("icon"); if (idx1 >= 0 && !(options[idx1].flags & P_WAS_SET)) { options[idx1].def_val = 0; p_icon = 0; } } void ex_set(exarg_T *eap) { int flags = 0; if (eap->cmdidx == CMD_setlocal) { flags = OPT_LOCAL; } else if (eap->cmdidx == CMD_setglobal) { flags = OPT_GLOBAL; } if (eap->forceit) { flags |= OPT_ONECOLUMN; } (void)do_set(eap->arg, flags); } /// Part of do_set() for string options. /// @return FAIL on failure, do not process further options. static int do_set_string(int opt_idx, int opt_flags, char **argp, int nextchar, set_op_T op_arg, uint32_t flags, char *varp_arg, char *errbuf, size_t errbuflen, int *value_checked, char **errmsg) { char *arg = *argp; set_op_T op = op_arg; char *varp = varp_arg; char *save_arg = NULL; char *s = NULL; char_u *oldval = NULL; // previous value if *varp char *newval; char_u *origval = NULL; char_u *origval_l = NULL; char_u *origval_g = NULL; char *saved_origval = NULL; char *saved_origval_l = NULL; char *saved_origval_g = NULL; char *saved_newval = NULL; unsigned newlen; int comma; char whichwrap[80]; // When using ":set opt=val" for a global option // with a local value the local value will be // reset, use the global value here. if ((opt_flags & (OPT_LOCAL | OPT_GLOBAL)) == 0 && ((int)options[opt_idx].indir & PV_BOTH)) { varp = (char *)options[opt_idx].var; } // The old value is kept until we are sure that the new value is valid. oldval = *(char_u **)varp; if ((opt_flags & (OPT_LOCAL | OPT_GLOBAL)) == 0) { origval_l = *(char_u **)get_varp_scope(&(options[opt_idx]), OPT_LOCAL); origval_g = *(char_u **)get_varp_scope(&(options[opt_idx]), OPT_GLOBAL); // A global-local string option might have an empty option as value to // indicate that the global value should be used. if (((int)options[opt_idx].indir & PV_BOTH) && origval_l == (char_u *)empty_option) { origval_l = origval_g; } } // When setting the local value of a global option, the old value may be // the global value. if (((int)options[opt_idx].indir & PV_BOTH) && (opt_flags & OPT_LOCAL)) { origval = *(char_u **)get_varp(&options[opt_idx]); } else { origval = oldval; } if (nextchar == '&') { // set to default val newval = options[opt_idx].def_val; // expand environment variables and ~ since the default value was // already expanded, only required when an environment variable was set // later if (newval == NULL) { newval = empty_option; } else if (!(options[opt_idx].flags & P_NO_DEF_EXP)) { s = option_expand(opt_idx, newval); if (s == NULL) { s = newval; } newval = xstrdup(s); } else { newval = xstrdup(newval); } } else if (nextchar == '<') { // set to global val newval = xstrdup(*(char **)get_varp_scope(&(options[opt_idx]), OPT_GLOBAL)); } else { arg++; // jump to after the '=' or ':' // Set 'keywordprg' to ":help" if an empty // value was passed to :set by the user. if (varp == (char *)&p_kp && (*arg == NUL || *arg == ' ')) { save_arg = arg; arg = ":help"; } else if (varp == (char *)&p_bs && ascii_isdigit(**(char_u **)varp)) { // Convert 'backspace' number to string, for // adding, prepending and removing string. int i = getdigits_int((char **)varp, true, 0); switch (i) { case 0: *(char **)varp = empty_option; break; case 1: *(char_u **)varp = (char_u *)xstrdup("indent,eol"); break; case 2: *(char_u **)varp = (char_u *)xstrdup("indent,eol,start"); break; case 3: *(char_u **)varp = (char_u *)xstrdup("indent,eol,nostop"); break; } xfree(oldval); if (origval == oldval) { origval = *(char_u **)varp; } if (origval_l == oldval) { origval_l = *(char_u **)varp; } if (origval_g == oldval) { origval_g = *(char_u **)varp; } oldval = *(char_u **)varp; } else if (varp == (char *)&p_ww && ascii_isdigit(*arg)) { // Convert 'whichwrap' number to string, for backwards compatibility // with Vim 3.0. *whichwrap = NUL; int i = getdigits_int(&arg, true, 0); if (i & 1) { xstrlcat(whichwrap, "b,", sizeof(whichwrap)); } if (i & 2) { xstrlcat(whichwrap, "s,", sizeof(whichwrap)); } if (i & 4) { xstrlcat(whichwrap, "h,l,", sizeof(whichwrap)); } if (i & 8) { xstrlcat(whichwrap, "<,>,", sizeof(whichwrap)); } if (i & 16) { xstrlcat(whichwrap, "[,],", sizeof(whichwrap)); } if (*whichwrap != NUL) { // remove trailing , whichwrap[strlen(whichwrap) - 1] = NUL; } save_arg = arg; arg = whichwrap; } else if (*arg == '>' && (varp == (char *)&p_dir || varp == (char *)&p_bdir)) { // Remove '>' before 'dir' and 'bdir', for backwards compatibility with // version 3.0 arg++; } // Copy the new string into allocated memory. // Can't use set_string_option_direct(), because we need to remove the // backslashes. // get a bit too much newlen = (unsigned)strlen(arg) + 1; if (op != OP_NONE) { newlen += (unsigned)STRLEN(origval) + 1; } newval = xmalloc(newlen); s = newval; // Copy the string, skip over escaped chars. // For MS-Windows backslashes before normal file name characters // are not removed, and keep backslash at start, for "\\machine\path", // but do remove it for "\\\\machine\\path". // The reverse is found in ExpandOldSetting(). while (*arg != NUL && !ascii_iswhite(*arg)) { if (*arg == '\\' && arg[1] != NUL #ifdef BACKSLASH_IN_FILENAME && !((flags & P_EXPAND) && vim_isfilec(arg[1]) && !ascii_iswhite(arg[1]) && (arg[1] != '\\' || (s == newval && arg[2] != '\\'))) #endif ) { arg++; // remove backslash } int i = utfc_ptr2len(arg); if (i > 1) { // copy multibyte char memmove(s, arg, (size_t)i); arg += i; s += i; } else { *s++ = *arg++; } } *s = NUL; // Expand environment variables and ~. // Don't do it when adding without inserting a comma. if (op == OP_NONE || (flags & P_COMMA)) { s = option_expand(opt_idx, newval); if (s != NULL) { xfree(newval); newlen = (unsigned)strlen(s) + 1; if (op != OP_NONE) { newlen += (unsigned)STRLEN(origval) + 1; } newval = xmalloc(newlen); STRCPY(newval, s); } } // locate newval[] in origval[] when removing it // and when adding to avoid duplicates int len = 0; if (op == OP_REMOVING || (flags & P_NODUP)) { len = (int)STRLEN(newval); s = (char *)find_dup_item(origval, (char_u *)newval, flags); // do not add if already there if ((op == OP_ADDING || op == OP_PREPENDING) && s != NULL) { op = OP_NONE; STRCPY(newval, origval); } // if no duplicate, move pointer to end of original value if (s == NULL) { s = (char *)origval + (int)STRLEN(origval); } } // concatenate the two strings; add a ',' if needed if (op == OP_ADDING || op == OP_PREPENDING) { comma = ((flags & P_COMMA) && *origval != NUL && *newval != NUL); if (op == OP_ADDING) { len = (int)STRLEN(origval); // Strip a trailing comma, would get 2. if (comma && len > 1 && (flags & P_ONECOMMA) == P_ONECOMMA && origval[len - 1] == ',' && origval[len - 2] != '\\') { len--; } memmove(newval + len + comma, newval, strlen(newval) + 1); memmove(newval, origval, (size_t)len); } else { len = (int)strlen(newval); STRMOVE(newval + len + comma, origval); } if (comma) { newval[len] = ','; } } // Remove newval[] from origval[]. (Note: "len" has been set above and // is used here). if (op == OP_REMOVING) { STRCPY(newval, origval); if (*s) { // may need to remove a comma if (flags & P_COMMA) { if (s == (char *)origval) { // include comma after string if (s[len] == ',') { len++; } } else { // include comma before string s--; len++; } } STRMOVE(newval + (s - (char *)origval), s + len); } } if (flags & P_FLAGLIST) { // Remove flags that appear twice. for (s = newval; *s;) { // if options have P_FLAGLIST and P_ONECOMMA such as // 'whichwrap' if (flags & P_ONECOMMA) { if (*s != ',' && *(s + 1) == ',' && vim_strchr(s + 2, *s) != NULL) { // Remove the duplicated value and the next comma. STRMOVE(s, s + 2); continue; } } else { if ((!(flags & P_COMMA) || *s != ',') && vim_strchr(s + 1, *s) != NULL) { STRMOVE(s, s + 1); continue; } } s++; } } if (save_arg != NULL) { arg = save_arg; // arg was temporarily changed, restore it } } // Set the new value. *(char_u **)(varp) = (char_u *)newval; // origval may be freed by did_set_string_option(), make a copy. saved_origval = (origval != NULL) ? xstrdup((char *)origval) : NULL; saved_origval_l = (origval_l != NULL) ? xstrdup((char *)origval_l) : NULL; saved_origval_g = (origval_g != NULL) ? xstrdup((char *)origval_g) : NULL; // newval (and varp) may become invalid if the buffer is closed by // autocommands. saved_newval = (newval != NULL) ? xstrdup(newval) : NULL; { uint32_t *p = insecure_flag(curwin, opt_idx, opt_flags); const int secure_saved = secure; // When an option is set in the sandbox, from a modeline or in secure // mode, then deal with side effects in secure mode. Also when the // value was set with the P_INSECURE flag and is not completely // replaced. if ((opt_flags & OPT_MODELINE) || sandbox != 0 || (op != OP_NONE && (*p & P_INSECURE))) { secure = 1; } // Handle side effects, and set the global value for ":set" on local // options. Note: when setting 'syntax' or 'filetype' autocommands may // be triggered that can cause havoc. *errmsg = did_set_string_option(opt_idx, (char **)varp, (char *)oldval, errbuf, errbuflen, opt_flags, value_checked); secure = secure_saved; } if (*errmsg == NULL) { if (!starting) { trigger_optionsset_string(opt_idx, opt_flags, saved_origval, saved_origval_l, saved_origval_g, saved_newval); } if (options[opt_idx].flags & P_UI_OPTION) { ui_call_option_set(cstr_as_string(options[opt_idx].fullname), STRING_OBJ(cstr_as_string(saved_newval))); } } xfree(saved_origval); xfree(saved_origval_l); xfree(saved_origval_g); xfree(saved_newval); *argp = arg; return *errmsg == NULL ? OK : FAIL; } /// Parse 'arg' for option settings. /// /// 'arg' may be IObuff, but only when no errors can be present and option /// does not need to be expanded with option_expand(). /// "opt_flags": /// 0 for ":set" /// OPT_GLOBAL for ":setglobal" /// OPT_LOCAL for ":setlocal" and a modeline /// OPT_MODELINE for a modeline /// OPT_WINONLY to only set window-local options /// OPT_NOWIN to skip setting window-local options /// /// @param arg option string (may be written to!) /// /// @return FAIL if an error is detected, OK otherwise int do_set(char *arg, int opt_flags) { int opt_idx; char *errmsg; char errbuf[80]; char *startarg; int prefix; // 1: nothing, 0: "no", 2: "inv" in front of name char_u nextchar; // next non-white char after option name int afterchar; // character just after option name int len; int i; varnumber_T value; int key; uint32_t flags; // flags for current option char *varp = NULL; // pointer to variable for current option int did_show = false; // already showed one value set_op_T op = 0; if (*arg == NUL) { showoptions(0, opt_flags); did_show = true; goto theend; } while (*arg != NUL) { // loop to process all options errmsg = NULL; startarg = arg; // remember for error message if (STRNCMP(arg, "all", 3) == 0 && !isalpha(arg[3]) && !(opt_flags & OPT_MODELINE)) { // ":set all" show all options. // ":set all&" set all options to their default value. arg += 3; if (*arg == '&') { arg++; // Only for :set command set global value of local options. set_options_default(OPT_FREE | opt_flags); didset_options(); didset_options2(); ui_refresh_options(); redraw_all_later(UPD_CLEAR); } else { showoptions(1, opt_flags); did_show = true; } } else { prefix = 1; if (STRNCMP(arg, "no", 2) == 0) { prefix = 0; arg += 2; } else if (STRNCMP(arg, "inv", 3) == 0) { prefix = 2; arg += 3; } // find end of name key = 0; if (*arg == '<') { opt_idx = -1; // look out for ;> if (arg[1] == 't' && arg[2] == '_' && arg[3] && arg[4]) { len = 5; } else { len = 1; while (arg[len] != NUL && arg[len] != '>') { len++; } } if (arg[len] != '>') { errmsg = e_invarg; goto skip; } if (arg[1] == 't' && arg[2] == '_') { // could be term code opt_idx = findoption_len((const char *)arg + 1, (size_t)(len - 1)); } len++; if (opt_idx == -1) { key = find_key_option((char_u *)arg + 1, true); } } else { len = 0; // The two characters after "t_" may not be alphanumeric. if (arg[0] == 't' && arg[1] == '_' && arg[2] && arg[3]) { len = 4; } else { while (ASCII_ISALNUM(arg[len]) || arg[len] == '_') { len++; } } opt_idx = findoption_len((const char *)arg, (size_t)len); if (opt_idx == -1) { key = find_key_option((char_u *)arg, false); } } // remember character after option name afterchar = (uint8_t)arg[len]; // skip white space, allow ":set ai ?" while (ascii_iswhite(arg[len])) { len++; } op = OP_NONE; if (arg[len] != NUL && arg[len + 1] == '=') { if (arg[len] == '+') { op = OP_ADDING; // "+=" len++; } else if (arg[len] == '^') { op = OP_PREPENDING; // "^=" len++; } else if (arg[len] == '-') { op = OP_REMOVING; // "-=" len++; } } nextchar = (uint8_t)arg[len]; if (opt_idx == -1 && key == 0) { // found a mismatch: skip errmsg = e_unknown_option; goto skip; } if (opt_idx >= 0) { if (options[opt_idx].var == NULL) { // hidden option: skip // Only give an error message when requesting the value of // a hidden option, ignore setting it. if (vim_strchr("=:!&<", nextchar) == NULL && (!(options[opt_idx].flags & P_BOOL) || nextchar == '?')) { errmsg = e_unsupportedoption; } goto skip; } flags = options[opt_idx].flags; varp = get_varp_scope(&(options[opt_idx]), opt_flags); } else { flags = P_STRING; } // Skip all options that are not window-local (used when showing // an already loaded buffer in a window). if ((opt_flags & OPT_WINONLY) && (opt_idx < 0 || options[opt_idx].var != VAR_WIN)) { goto skip; } // Skip all options that are window-local (used for :vimgrep). if ((opt_flags & OPT_NOWIN) && opt_idx >= 0 && options[opt_idx].var == VAR_WIN) { goto skip; } // Disallow changing some options from modelines. if (opt_flags & OPT_MODELINE) { if (flags & (P_SECURE | P_NO_ML)) { errmsg = e_not_allowed_in_modeline; goto skip; } if ((flags & P_MLE) && !p_mle) { errmsg = e_not_allowed_in_modeline_when_modelineexpr_is_off; goto skip; } // In diff mode some options are overruled. This avoids that // 'foldmethod' becomes "marker" instead of "diff" and that // "wrap" gets set. if (curwin->w_p_diff && opt_idx >= 0 // shut up coverity warning && (options[opt_idx].indir == PV_FDM || options[opt_idx].indir == PV_WRAP)) { goto skip; } } // Disallow changing some options in the sandbox if (sandbox != 0 && (flags & P_SECURE)) { errmsg = e_sandbox; goto skip; } if (vim_strchr("?=:!&<", nextchar) != NULL) { arg += len; if (nextchar == '&' && arg[1] == 'v' && arg[2] == 'i') { if (arg[3] == 'm') { // "opt&vim": set to Vim default arg += 3; } else { // "opt&vi": set to Vi default arg += 2; } } if (vim_strchr("?!&<", nextchar) != NULL && arg[1] != NUL && !ascii_iswhite(arg[1])) { errmsg = e_trailing; goto skip; } } // // allow '=' and ':' as MS-DOS command.com allows only one // '=' character per "set" command line. grrr. (jw) // if (nextchar == '?' || (prefix == 1 && vim_strchr("=:&<", nextchar) == NULL && !(flags & P_BOOL))) { // print value if (did_show) { msg_putchar('\n'); // cursor below last one } else { gotocmdline(true); // cursor at status line did_show = true; // remember that we did a line } if (opt_idx >= 0) { showoneopt(&options[opt_idx], opt_flags); if (p_verbose > 0) { // Mention where the option was last set. if (varp == (char *)options[opt_idx].var) { option_last_set_msg(options[opt_idx].last_set); } else if ((int)options[opt_idx].indir & PV_WIN) { option_last_set_msg(curwin->w_p_script_ctx[ (int)options[opt_idx].indir & PV_MASK]); } else if ((int)options[opt_idx].indir & PV_BUF) { option_last_set_msg(curbuf->b_p_script_ctx[ (int)options[opt_idx].indir & PV_MASK]); } } } else { errmsg = e_key_code_not_set; goto skip; } if (nextchar != '?' && nextchar != NUL && !ascii_iswhite(afterchar)) { errmsg = e_trailing; } } else { int value_checked = false; if (flags & P_BOOL) { // boolean if (nextchar == '=' || nextchar == ':') { errmsg = e_invarg; goto skip; } // ":set opt!": invert // ":set opt&": reset to default value // ":set opt<": reset to global value if (nextchar == '!') { value = *(int *)(varp) ^ 1; } else if (nextchar == '&') { value = (int)(intptr_t)options[opt_idx].def_val; } else if (nextchar == '<') { // For 'autoread' -1 means to use global value. if ((int *)varp == &curbuf->b_p_ar && opt_flags == OPT_LOCAL) { value = -1; } else { value = *(int *)get_varp_scope(&(options[opt_idx]), OPT_GLOBAL); } } else { // ":set invopt": invert // ":set opt" or ":set noopt": set or reset if (nextchar != NUL && !ascii_iswhite(afterchar)) { errmsg = e_trailing; goto skip; } if (prefix == 2) { // inv value = *(int *)(varp) ^ 1; } else { value = prefix; } } errmsg = set_bool_option(opt_idx, (char_u *)varp, (int)value, opt_flags); } else { // Numeric or string. if (vim_strchr("=:&<", nextchar) == NULL || prefix != 1) { errmsg = e_invarg; goto skip; } if (flags & P_NUM) { // numeric // Different ways to set a number option: // & set to default value // < set to global value // accept special key codes for 'wildchar' // c accept any non-digit for 'wildchar' // [-]0-9 set number // other error arg++; if (nextchar == '&') { value = (long)(intptr_t)options[opt_idx].def_val; } else if (nextchar == '<') { // For 'undolevels' NO_LOCAL_UNDOLEVEL means to // use the global value. if ((long *)varp == &curbuf->b_p_ul && opt_flags == OPT_LOCAL) { value = NO_LOCAL_UNDOLEVEL; } else { value = *(long *)get_varp_scope(&(options[opt_idx]), OPT_GLOBAL); } } else if (((long *)varp == &p_wc || (long *)varp == &p_wcm) && (*arg == '<' || *arg == '^' || (*arg != NUL && (!arg[1] || ascii_iswhite(arg[1])) && !ascii_isdigit(*arg)))) { value = string_to_key((char_u *)arg); if (value == 0 && (long *)varp != &p_wcm) { errmsg = e_invarg; goto skip; } } else if (*arg == '-' || ascii_isdigit(*arg)) { // Allow negative, octal and hex numbers. vim_str2nr(arg, NULL, &i, STR2NR_ALL, &value, NULL, 0, true); if (i == 0 || (arg[i] != NUL && !ascii_iswhite(arg[i]))) { errmsg = e_number_required_after_equal; goto skip; } } else { errmsg = e_number_required_after_equal; goto skip; } if (op == OP_ADDING) { value = *(long *)varp + value; } if (op == OP_PREPENDING) { value = *(long *)varp * value; } if (op == OP_REMOVING) { value = *(long *)varp - value; } errmsg = set_num_option(opt_idx, (char_u *)varp, (long)value, errbuf, sizeof(errbuf), opt_flags); } else if (opt_idx >= 0) { // String. if (do_set_string(opt_idx, opt_flags, &arg, nextchar, op, flags, varp, errbuf, sizeof(errbuf), &value_checked, &errmsg) == FAIL) { if (errmsg != NULL) { goto skip; } break; } } else { // key code option(FIXME(tarruda): Show a warning or something // similar) } } if (opt_idx >= 0) { did_set_option(opt_idx, opt_flags, op == OP_NONE, value_checked); } } skip: // Advance to next argument. // - skip until a blank found, taking care of backslashes // - skip blanks // - skip one "=val" argument (for hidden options ":set gfn =xx") for (i = 0; i < 2; i++) { while (*arg != NUL && !ascii_iswhite(*arg)) { if (*arg++ == '\\' && *arg != NUL) { arg++; } } arg = skipwhite(arg); if (*arg != '=') { break; } } } if (errmsg != NULL) { STRLCPY(IObuff, _(errmsg), IOSIZE); i = (int)strlen(IObuff) + 2; if (i + (arg - startarg) < IOSIZE) { // append the argument with the error STRCAT(IObuff, ": "); assert(arg >= startarg); memmove(IObuff + i, startarg, (size_t)(arg - startarg)); IObuff[i + (arg - startarg)] = NUL; } // make sure all characters are printable trans_characters((char *)IObuff, IOSIZE); no_wait_return++; // wait_return() done later emsg((char *)IObuff); // show error highlighted no_wait_return--; return FAIL; } arg = skipwhite(arg); } theend: if (silent_mode && did_show) { // After displaying option values in silent mode. silent_mode = false; info_message = true; // use mch_msg(), not mch_errmsg() msg_putchar('\n'); ui_flush(); silent_mode = true; info_message = false; // use mch_msg(), not mch_errmsg() } return OK; } /// Call this when an option has been given a new value through a user command. /// Sets the P_WAS_SET flag and takes care of the P_INSECURE flag. /// /// @param opt_flags possibly with OPT_MODELINE /// @param new_value value was replaced completely /// @param value_checked value was checked to be safe, no need to set P_INSECURE void did_set_option(int opt_idx, int opt_flags, int new_value, int value_checked) { options[opt_idx].flags |= P_WAS_SET; // When an option is set in the sandbox, from a modeline or in secure mode // set the P_INSECURE flag. Otherwise, if a new value is stored reset the // flag. uint32_t *p = insecure_flag(curwin, opt_idx, opt_flags); if (!value_checked && (secure || sandbox != 0 || (opt_flags & OPT_MODELINE))) { *p = *p | P_INSECURE; } else if (new_value) { *p = *p & ~P_INSECURE; } } /// Convert a key name or string into a key value. /// Used for 'wildchar' and 'cedit' options. int string_to_key(char_u *arg) { if (*arg == '<') { return find_key_option(arg + 1, true); } if (*arg == '^') { return CTRL_CHR(arg[1]); } return *arg; } // When changing 'title', 'titlestring', 'icon' or 'iconstring', call // maketitle() to create and display it. // When switching the title or icon off, call ui_set_{icon,title}(NULL) to get // the old value back. void did_set_title(void) { if (starting != NO_SCREEN) { maketitle(); } } /// set_options_bin - called when 'bin' changes value. /// /// @param opt_flags OPT_LOCAL and/or OPT_GLOBAL void set_options_bin(int oldval, int newval, int opt_flags) { // The option values that are changed when 'bin' changes are // copied when 'bin is set and restored when 'bin' is reset. if (newval) { if (!oldval) { // switched on if (!(opt_flags & OPT_GLOBAL)) { curbuf->b_p_tw_nobin = curbuf->b_p_tw; curbuf->b_p_wm_nobin = curbuf->b_p_wm; curbuf->b_p_ml_nobin = curbuf->b_p_ml; curbuf->b_p_et_nobin = curbuf->b_p_et; } if (!(opt_flags & OPT_LOCAL)) { p_tw_nobin = p_tw; p_wm_nobin = p_wm; p_ml_nobin = p_ml; p_et_nobin = p_et; } } if (!(opt_flags & OPT_GLOBAL)) { curbuf->b_p_tw = 0; // no automatic line wrap curbuf->b_p_wm = 0; // no automatic line wrap curbuf->b_p_ml = 0; // no modelines curbuf->b_p_et = 0; // no expandtab } if (!(opt_flags & OPT_LOCAL)) { p_tw = 0; p_wm = 0; p_ml = false; p_et = false; p_bin = true; // needed when called for the "-b" argument } } else if (oldval) { // switched off if (!(opt_flags & OPT_GLOBAL)) { curbuf->b_p_tw = curbuf->b_p_tw_nobin; curbuf->b_p_wm = curbuf->b_p_wm_nobin; curbuf->b_p_ml = curbuf->b_p_ml_nobin; curbuf->b_p_et = curbuf->b_p_et_nobin; } if (!(opt_flags & OPT_LOCAL)) { p_tw = p_tw_nobin; p_wm = p_wm_nobin; p_ml = p_ml_nobin; p_et = p_et_nobin; } } } /// Find the parameter represented by the given character (eg ', :, ", or /), /// and return its associated value in the 'shada' string. /// Only works for number parameters, not for 'r' or 'n'. /// If the parameter is not specified in the string or there is no following /// number, return -1. int get_shada_parameter(int type) { char_u *p; p = find_shada_parameter(type); if (p != NULL && ascii_isdigit(*p)) { return atoi((char *)p); } return -1; } /// Find the parameter represented by the given character (eg ''', ':', '"', or /// '/') in the 'shada' option and return a pointer to the string after it. /// Return NULL if the parameter is not specified in the string. char_u *find_shada_parameter(int type) { for (char *p = p_shada; *p; p++) { if (*p == type) { return (char_u *)p + 1; } if (*p == 'n') { // 'n' is always the last one break; } p = vim_strchr(p, ','); // skip until next ',' if (p == NULL) { // hit the end without finding parameter break; } } return NULL; } /// Expand environment variables for some string options. /// These string options cannot be indirect! /// If "val" is NULL expand the current value of the option. /// Return pointer to NameBuff, or NULL when not expanded. static char *option_expand(int opt_idx, char *val) { // if option doesn't need expansion nothing to do if (!(options[opt_idx].flags & P_EXPAND) || options[opt_idx].var == NULL) { return NULL; } if (val == NULL) { val = *(char **)options[opt_idx].var; } // If val is longer than MAXPATHL no meaningful expansion can be done, // expand_env() would truncate the string. if (val == NULL || strlen(val) > MAXPATHL) { return NULL; } // Expanding this with NameBuff, expand_env() must not be passed IObuff. // Escape spaces when expanding 'tags', they are used to separate file // names. // For 'spellsuggest' expand after "file:". expand_env_esc((char_u *)val, (char_u *)NameBuff, MAXPATHL, (char_u **)options[opt_idx].var == &p_tags, false, (char_u **)options[opt_idx].var == (char_u **)&p_sps ? (char_u *)"file:" : NULL); if (strcmp(NameBuff, val) == 0) { // they are the same return NULL; } return NameBuff; } /// After setting various option values: recompute variables that depend on /// option values. static void didset_options(void) { // initialize the table for 'iskeyword' et.al. (void)init_chartab(); didset_string_options(); (void)spell_check_msm(); (void)spell_check_sps(); (void)compile_cap_prog(curwin->w_s); (void)did_set_spell_option(true); // set cedit_key (void)check_cedit(); // initialize the table for 'breakat'. fill_breakat_flags(); didset_window_options(curwin, true); } // More side effects of setting options. static void didset_options2(void) { // Initialize the highlight_attr[] table. highlight_changed(); // Parse default for 'fillchars'. (void)set_chars_option(curwin, &curwin->w_p_fcs, true); // Parse default for 'listchars'. (void)set_chars_option(curwin, &curwin->w_p_lcs, true); // Parse default for 'wildmode'. check_opt_wim(); xfree(curbuf->b_p_vsts_array); (void)tabstop_set(curbuf->b_p_vsts, &curbuf->b_p_vsts_array); xfree(curbuf->b_p_vts_array); (void)tabstop_set(curbuf->b_p_vts, &curbuf->b_p_vts_array); } /// Check for string options that are NULL (normally only termcap options). void check_options(void) { int opt_idx; for (opt_idx = 0; options[opt_idx].fullname != NULL; opt_idx++) { if ((options[opt_idx].flags & P_STRING) && options[opt_idx].var != NULL) { check_string_option((char **)get_varp(&(options[opt_idx]))); } } } /// Return true when option "opt" was set from a modeline or in secure mode. /// Return false when it wasn't. /// Return -1 for an unknown option. int was_set_insecurely(win_T *const wp, char *opt, int opt_flags) { int idx = findoption(opt); if (idx >= 0) { uint32_t *flagp = insecure_flag(wp, idx, opt_flags); return (*flagp & P_INSECURE) != 0; } internal_error("was_set_insecurely()"); return -1; } /// Get a pointer to the flags used for the P_INSECURE flag of option /// "opt_idx". For some local options a local flags field is used. /// NOTE: Caller must make sure that "wp" is set to the window from which /// the option is used. static uint32_t *insecure_flag(win_T *const wp, int opt_idx, int opt_flags) { if (opt_flags & OPT_LOCAL) { assert(wp != NULL); switch ((int)options[opt_idx].indir) { case PV_STL: return &wp->w_p_stl_flags; case PV_WBR: return &wp->w_p_wbr_flags; case PV_FDE: return &wp->w_p_fde_flags; case PV_FDT: return &wp->w_p_fdt_flags; case PV_INDE: return &wp->w_buffer->b_p_inde_flags; case PV_FEX: return &wp->w_buffer->b_p_fex_flags; case PV_INEX: return &wp->w_buffer->b_p_inex_flags; } } // Nothing special, return global flags field. return &options[opt_idx].flags; } /// Redraw the window title and/or tab page text later. void redraw_titles(void) { need_maketitle = true; redraw_tabline = true; } /// Return true if "val" is a valid name: only consists of alphanumeric ASCII /// characters or characters in "allowed". bool valid_name(const char *val, const char *allowed) FUNC_ATTR_NONNULL_ALL FUNC_ATTR_PURE FUNC_ATTR_WARN_UNUSED_RESULT { for (const char_u *s = (char_u *)val; *s != NUL; s++) { if (!ASCII_ISALNUM(*s) && vim_strchr(allowed, *s) == NULL) { return false; } } return true; } void check_blending(win_T *wp) { wp->w_grid_alloc.blending = wp->w_p_winbl > 0 || (wp->w_floating && wp->w_float_config.shadow); } /// Handle setting `winhighlight' in window "wp" bool parse_winhl_opt(win_T *wp) { const char *p = (const char *)wp->w_p_winhl; if (!*p) { if (wp->w_ns_hl_winhl && wp->w_ns_hl == wp->w_ns_hl_winhl) { wp->w_ns_hl = 0; wp->w_hl_needs_update = true; } return true; } if (wp->w_ns_hl_winhl == 0) { wp->w_ns_hl_winhl = (int)nvim_create_namespace(NULL_STRING); } else { // namespace already exist. invalidate existing items DecorProvider *dp = get_decor_provider(wp->w_ns_hl_winhl, true); dp->hl_valid++; } wp->w_ns_hl = wp->w_ns_hl_winhl; int ns_hl = wp->w_ns_hl; while (*p) { char *colon = strchr(p, ':'); if (!colon) { return false; } size_t nlen = (size_t)(colon - p); char *hi = colon + 1; char *commap = xstrchrnul(hi, ','); size_t len = (size_t)(commap - hi); int hl_id = len ? syn_check_group(hi, len) : -1; int hl_id_link = nlen ? syn_check_group(p, nlen) : 0; HlAttrs attrs = HLATTRS_INIT; attrs.rgb_ae_attr |= HL_GLOBAL; ns_hl_def(ns_hl, hl_id_link, attrs, hl_id, NULL); p = *commap ? commap + 1 : ""; } wp->w_hl_needs_update = true; return true; } /// Set the script_ctx for an option, taking care of setting the buffer- or /// window-local value. void set_option_sctx_idx(int opt_idx, int opt_flags, sctx_T script_ctx) { int both = (opt_flags & (OPT_LOCAL | OPT_GLOBAL)) == 0; int indir = (int)options[opt_idx].indir; nlua_set_sctx(&script_ctx); LastSet last_set = { .script_ctx = script_ctx, .channel_id = current_channel_id, }; // Modeline already has the line number set. if (!(opt_flags & OPT_MODELINE)) { last_set.script_ctx.sc_lnum += SOURCING_LNUM; } // Remember where the option was set. For local options need to do that // in the buffer or window structure. if (both || (opt_flags & OPT_GLOBAL) || (indir & (PV_BUF|PV_WIN)) == 0) { options[opt_idx].last_set = last_set; } if (both || (opt_flags & OPT_LOCAL)) { if (indir & PV_BUF) { curbuf->b_p_script_ctx[indir & PV_MASK] = last_set; } else if (indir & PV_WIN) { curwin->w_p_script_ctx[indir & PV_MASK] = last_set; } } } /// Set the value of a boolean option, taking care of side effects /// /// @param[in] opt_idx Option index in options[] table. /// @param[out] varp Pointer to the option variable. /// @param[in] value New value. /// @param[in] opt_flags OPT_LOCAL and/or OPT_GLOBAL. /// /// @return NULL on success, error message on error. static char *set_bool_option(const int opt_idx, char_u *const varp, const int value, const int opt_flags) { int old_value = *(int *)varp; int old_global_value = 0; char *errmsg = NULL; // Disallow changing some options from secure mode if ((secure || sandbox != 0) && (options[opt_idx].flags & P_SECURE)) { return (char *)e_secure; } // Save the global value before changing anything. This is needed as for // a global-only option setting the "local value" in fact sets the global // value (since there is only one value). if ((opt_flags & (OPT_LOCAL | OPT_GLOBAL)) == 0) { old_global_value = *(int *)get_varp_scope(&(options[opt_idx]), OPT_GLOBAL); } *(int *)varp = value; // set the new value // Remember where the option was set. set_option_sctx_idx(opt_idx, opt_flags, current_sctx); // May set global value for local option. if ((opt_flags & (OPT_LOCAL | OPT_GLOBAL)) == 0) { *(int *)get_varp_scope(&(options[opt_idx]), OPT_GLOBAL) = value; } // Ensure that options set to p_force_on cannot be disabled. if ((int *)varp == &p_force_on && p_force_on == false) { p_force_on = true; return e_unsupportedoption; // Ensure that options set to p_force_off cannot be enabled. } else if ((int *)varp == &p_force_off && p_force_off == true) { p_force_off = false; return (char *)e_unsupportedoption; } else if ((int *)varp == &p_lrm) { // 'langremap' -> !'langnoremap' p_lnr = !p_lrm; } else if ((int *)varp == &p_lnr) { // 'langnoremap' -> !'langremap' p_lrm = !p_lnr; } else if ((int *)varp == &curbuf->b_p_udf || (int *)varp == &p_udf) { // 'undofile' // Only take action when the option was set. When reset we do not // delete the undo file, the option may be set again without making // any changes in between. if (curbuf->b_p_udf || p_udf) { char_u hash[UNDO_HASH_SIZE]; FOR_ALL_BUFFERS(bp) { // When 'undofile' is set globally: for every buffer, otherwise // only for the current buffer: Try to read in the undofile, // if one exists, the buffer wasn't changed and the buffer was // loaded if ((curbuf == bp || (opt_flags & OPT_GLOBAL) || opt_flags == 0) && !bufIsChanged(bp) && bp->b_ml.ml_mfp != NULL) { u_compute_hash(bp, hash); u_read_undo(NULL, hash, (char_u *)bp->b_fname); } } } } else if ((int *)varp == &curbuf->b_p_ro) { // when 'readonly' is reset globally, also reset readonlymode if (!curbuf->b_p_ro && (opt_flags & OPT_LOCAL) == 0) { readonlymode = false; } // when 'readonly' is set may give W10 again if (curbuf->b_p_ro) { curbuf->b_did_warn = false; } redraw_titles(); } else if ((int *)varp == &curbuf->b_p_ma) { // when 'modifiable' is changed, redraw the window title redraw_titles(); } else if ((int *)varp == &curbuf->b_p_eol) { // when 'endofline' is changed, redraw the window title redraw_titles(); } else if ((int *)varp == &curbuf->b_p_fixeol) { // when 'fixeol' is changed, redraw the window title redraw_titles(); } else if ((int *)varp == &curbuf->b_p_bomb) { // when 'bomb' is changed, redraw the window title and tab page text redraw_titles(); } else if ((int *)varp == &curbuf->b_p_bin) { // when 'bin' is set also set some other options set_options_bin(old_value, curbuf->b_p_bin, opt_flags); redraw_titles(); } else if ((int *)varp == &curbuf->b_p_bl && old_value != curbuf->b_p_bl) { // when 'buflisted' changes, trigger autocommands apply_autocmds(curbuf->b_p_bl ? EVENT_BUFADD : EVENT_BUFDELETE, NULL, NULL, true, curbuf); } else if ((int *)varp == &curbuf->b_p_swf) { // when 'swf' is set, create swapfile, when reset remove swapfile if (curbuf->b_p_swf && p_uc) { ml_open_file(curbuf); // create the swap file } else { // no need to reset curbuf->b_may_swap, ml_open_file() will check // buf->b_p_swf mf_close_file(curbuf, true); // remove the swap file } } else if ((int *)varp == &p_paste) { // when 'paste' is set or reset also change other options paste_option_changed(); } else if ((int *)varp == &p_ic && p_hls) { // when 'ignorecase' is set or reset and 'hlsearch' is set, redraw redraw_all_later(UPD_SOME_VALID); } else if ((int *)varp == &p_hls) { // when 'hlsearch' is set or reset: reset no_hlsearch set_no_hlsearch(false); } else if ((int *)varp == &curwin->w_p_scb) { // when 'scrollbind' is set: snapshot the current position to avoid a jump // at the end of normal_cmd() if (curwin->w_p_scb) { do_check_scrollbind(false); curwin->w_scbind_pos = curwin->w_topline; } } else if ((int *)varp == &curwin->w_p_pvw) { // There can be only one window with 'previewwindow' set. if (curwin->w_p_pvw) { FOR_ALL_WINDOWS_IN_TAB(win, curtab) { if (win->w_p_pvw && win != curwin) { curwin->w_p_pvw = false; return e_preview_window_already_exists; } } } } else if (varp == (char_u *)&(curbuf->b_p_lisp)) { // When 'lisp' option changes include/exclude '-' in // keyword characters. (void)buf_init_chartab(curbuf, false); // ignore errors } else if ((int *)varp == &p_title) { // when 'title' changed, may need to change the title; same for 'icon' did_set_title(); } else if ((int *)varp == &p_icon) { did_set_title(); } else if ((int *)varp == &curbuf->b_changed) { if (!value) { save_file_ff(curbuf); // Buffer is unchanged } redraw_titles(); modified_was_set = value; } #ifdef BACKSLASH_IN_FILENAME else if ((int *)varp == &p_ssl) { if (p_ssl) { psepc = '/'; psepcN = '\\'; pseps[0] = '/'; } else { psepc = '\\'; psepcN = '/'; pseps[0] = '\\'; } // need to adjust the file name arguments and buffer names. buflist_slash_adjust(); alist_slash_adjust(); scriptnames_slash_adjust(); } #endif else if ((int *)varp == &curwin->w_p_wrap) { // If 'wrap' is set, set w_leftcol to zero. if (curwin->w_p_wrap) { curwin->w_leftcol = 0; } } else if ((int *)varp == &p_ea) { if (p_ea && !old_value) { win_equal(curwin, false, 0); } } else if ((int *)varp == &p_acd) { // Change directories when the 'acd' option is set now. do_autochdir(); } else if ((int *)varp == &curwin->w_p_diff) { // 'diff' // May add or remove the buffer from the list of diff buffers. diff_buf_adjust(curwin); if (foldmethodIsDiff(curwin)) { foldUpdateAll(curwin); } } else if ((int *)varp == &curwin->w_p_spell) { // 'spell' if (curwin->w_p_spell) { errmsg = did_set_spelllang(curwin); } } if ((int *)varp == &curwin->w_p_arab) { if (curwin->w_p_arab) { // 'arabic' is set, handle various sub-settings. if (!p_tbidi) { // set rightleft mode if (!curwin->w_p_rl) { curwin->w_p_rl = true; changed_window_setting(); } // Enable Arabic shaping (major part of what Arabic requires) if (!p_arshape) { p_arshape = true; redraw_all_later(UPD_NOT_VALID); } } // Arabic requires a utf-8 encoding, inform the user if it's not // set. if (strcmp(p_enc, "utf-8") != 0) { static char *w_arabic = N_("W17: Arabic requires UTF-8, do ':set encoding=utf-8'"); msg_source(HL_ATTR(HLF_W)); msg_attr(_(w_arabic), HL_ATTR(HLF_W)); set_vim_var_string(VV_WARNINGMSG, _(w_arabic), -1); } // set 'delcombine' p_deco = true; // Force-set the necessary keymap for arabic. errmsg = set_option_value("keymap", 0L, "arabic", OPT_LOCAL); } else { // 'arabic' is reset, handle various sub-settings. if (!p_tbidi) { // reset rightleft mode if (curwin->w_p_rl) { curwin->w_p_rl = false; changed_window_setting(); } // 'arabicshape' isn't reset, it is a global option and // another window may still need it "on". } // 'delcombine' isn't reset, it is a global option and another // window may still want it "on". // Revert to the default keymap curbuf->b_p_iminsert = B_IMODE_NONE; curbuf->b_p_imsearch = B_IMODE_USE_INSERT; } } // End of handling side effects for bool options. // after handling side effects, call autocommand options[opt_idx].flags |= P_WAS_SET; // Don't do this while starting up or recursively. if (!starting && *get_vim_var_str(VV_OPTION_TYPE) == NUL) { char buf_old[2]; char buf_old_global[2]; char buf_new[2]; char buf_type[7]; vim_snprintf(buf_old, ARRAY_SIZE(buf_old), "%d", old_value ? true : false); vim_snprintf(buf_old_global, ARRAY_SIZE(buf_old_global), "%d", old_global_value ? true : false); vim_snprintf(buf_new, ARRAY_SIZE(buf_new), "%d", value ? true : false); vim_snprintf(buf_type, ARRAY_SIZE(buf_type), "%s", (opt_flags & OPT_LOCAL) ? "local" : "global"); set_vim_var_string(VV_OPTION_NEW, buf_new, -1); set_vim_var_string(VV_OPTION_OLD, buf_old, -1); set_vim_var_string(VV_OPTION_TYPE, buf_type, -1); if (opt_flags & OPT_LOCAL) { set_vim_var_string(VV_OPTION_COMMAND, "setlocal", -1); set_vim_var_string(VV_OPTION_OLDLOCAL, buf_old, -1); } if (opt_flags & OPT_GLOBAL) { set_vim_var_string(VV_OPTION_COMMAND, "setglobal", -1); set_vim_var_string(VV_OPTION_OLDGLOBAL, buf_old, -1); } if ((opt_flags & (OPT_LOCAL | OPT_GLOBAL)) == 0) { set_vim_var_string(VV_OPTION_COMMAND, "set", -1); set_vim_var_string(VV_OPTION_OLDLOCAL, buf_old, -1); set_vim_var_string(VV_OPTION_OLDGLOBAL, buf_old_global, -1); } if (opt_flags & OPT_MODELINE) { set_vim_var_string(VV_OPTION_COMMAND, "modeline", -1); set_vim_var_string(VV_OPTION_OLDLOCAL, buf_old, -1); } apply_autocmds(EVENT_OPTIONSET, options[opt_idx].fullname, NULL, false, NULL); reset_v_option_vars(); } if (options[opt_idx].flags & P_UI_OPTION) { ui_call_option_set(cstr_as_string(options[opt_idx].fullname), BOOLEAN_OBJ(*varp)); } comp_col(); // in case 'ruler' or 'showcmd' changed if (curwin->w_curswant != MAXCOL && (options[opt_idx].flags & (P_CURSWANT | P_RALL)) != 0) { curwin->w_set_curswant = true; } check_redraw(options[opt_idx].flags); return errmsg; } /// Set the value of a number option, taking care of side effects /// /// @param[in] opt_idx Option index in options[] table. /// @param[out] varp Pointer to the option variable. /// @param[in] value New value. /// @param errbuf Buffer for error messages. /// @param[in] errbuflen Length of `errbuf`. /// @param[in] opt_flags OPT_LOCAL, OPT_GLOBAL or OPT_MODELINE. /// /// @return NULL on success, error message on error. static char *set_num_option(int opt_idx, char_u *varp, long value, char *errbuf, size_t errbuflen, int opt_flags) { char *errmsg = NULL; long old_value = *(long *)varp; long old_global_value = 0; // only used when setting a local and global option long old_Rows = Rows; // remember old Rows long *pp = (long *)varp; // Disallow changing some options from secure mode. if ((secure || sandbox != 0) && (options[opt_idx].flags & P_SECURE)) { return e_secure; } // Save the global value before changing anything. This is needed as for // a global-only option setting the "local value" in fact sets the global // value (since there is only one value). if ((opt_flags & (OPT_LOCAL | OPT_GLOBAL)) == 0) { old_global_value = *(long *)get_varp_scope(&(options[opt_idx]), OPT_GLOBAL); } // Many number options assume their value is in the signed int range. if (value < INT_MIN || value > INT_MAX) { return e_invarg; } // Options that need some validation. if (pp == &p_wh) { if (value < 1) { errmsg = e_positive; } else if (p_wmh > value) { errmsg = e_winheight; } } else if (pp == &p_hh) { if (value < 0) { errmsg = e_positive; } } else if (pp == &p_wmh) { if (value < 0) { errmsg = e_positive; } else if (value > p_wh) { errmsg = e_winheight; } } else if (pp == &p_wiw) { if (value < 1) { errmsg = e_positive; } else if (p_wmw > value) { errmsg = e_winwidth; } } else if (pp == &p_wmw) { if (value < 0) { errmsg = e_positive; } else if (value > p_wiw) { errmsg = e_winwidth; } } else if (pp == &p_mco) { value = MAX_MCO; } else if (pp == &p_titlelen) { if (value < 0) { errmsg = e_positive; } } else if (pp == &p_uc) { if (value < 0) { errmsg = e_positive; } } else if (pp == &p_ch) { int minval = 0; if (value < minval) { errmsg = e_positive; } } else if (pp == &p_tm) { if (value < 0) { errmsg = e_positive; } } else if (pp == &p_hi) { if (value < 0) { errmsg = e_positive; } else if (value > 10000) { errmsg = e_invarg; } } else if (pp == &p_pyx) { if (value == 0) { value = 3; } else if (value != 3) { errmsg = e_invarg; } } else if (pp == &p_re) { if (value < 0 || value > 2) { errmsg = e_invarg; } } else if (pp == &p_report) { if (value < 0) { errmsg = e_positive; } } else if (pp == &p_so) { if (value < 0 && full_screen) { errmsg = e_positive; } } else if (pp == &p_siso) { if (value < 0 && full_screen) { errmsg = e_positive; } } else if (pp == &p_cwh) { if (value < 1) { errmsg = e_positive; } } else if (pp == &p_ut) { if (value < 0) { errmsg = e_positive; } } else if (pp == &p_ss) { if (value < 0) { errmsg = e_positive; } } else if (pp == &curwin->w_p_fdl || pp == &curwin->w_allbuf_opt.wo_fdl) { if (value < 0) { errmsg = e_positive; } } else if (pp == &curwin->w_p_cole || pp == &curwin->w_allbuf_opt.wo_cole) { if (value < 0) { errmsg = e_positive; } else if (value > 3) { errmsg = e_invarg; } } else if (pp == &curwin->w_p_nuw || pp == &curwin->w_allbuf_opt.wo_nuw) { if (value < 1) { errmsg = e_positive; } else if (value > 20) { errmsg = e_invarg; } } else if (pp == &curbuf->b_p_iminsert || pp == &p_iminsert) { if (value < 0 || value > B_IMODE_LAST) { errmsg = e_invarg; } } else if (pp == &curbuf->b_p_imsearch || pp == &p_imsearch) { if (value < -1 || value > B_IMODE_LAST) { errmsg = e_invarg; } } else if (pp == &curbuf->b_p_channel || pp == &p_channel) { errmsg = e_invarg; } else if (pp == &curbuf->b_p_scbk || pp == &p_scbk) { if (value < -1 || value > SB_MAX) { errmsg = e_invarg; } } else if (pp == &curbuf->b_p_sw || pp == &p_sw) { if (value < 0) { errmsg = e_positive; } } else if (pp == &curbuf->b_p_ts || pp == &p_ts) { if (value < 1) { errmsg = e_positive; } else if (value > TABSTOP_MAX) { errmsg = e_invarg; } } else if (pp == &curbuf->b_p_tw || pp == &p_tw) { if (value < 0) { errmsg = e_positive; } } else if (pp == &p_wd) { if (value < 0) { errmsg = e_positive; } } // Don't change the value and return early if validation failed. if (errmsg != NULL) { return errmsg; } *pp = value; // Remember where the option was set. set_option_sctx_idx(opt_idx, opt_flags, current_sctx); // For these options we want to fix some invalid values. if (pp == &p_window) { if (p_window < 1) { p_window = Rows - 1; } else if (p_window >= Rows) { p_window = Rows - 1; } } else if (pp == &p_ch) { if (ui_has(kUIMessages)) { p_ch = 0; } if (p_ch > Rows - min_rows() + 1) { p_ch = Rows - min_rows() + 1; } } // Number options that need some action when changed if (pp == &p_wh) { // 'winheight' if (!ONE_WINDOW && curwin->w_height < p_wh) { win_setheight((int)p_wh); } } else if (pp == &p_hh) { // 'helpheight' if (!ONE_WINDOW && curbuf->b_help && curwin->w_height < p_hh) { win_setheight((int)p_hh); } } else if (pp == &p_wmh) { // 'winminheight' win_setminheight(); } else if (pp == &p_wiw) { // 'winwidth' if (!ONE_WINDOW && curwin->w_width < p_wiw) { win_setwidth((int)p_wiw); } } else if (pp == &p_wmw) { // 'winminwidth' win_setminwidth(); } else if (pp == &p_ls) { // When switching to global statusline, decrease topframe height // Also clear the cmdline to remove the ruler if there is one if (value == 3 && old_value != 3) { frame_new_height(topframe, topframe->fr_height - STATUS_HEIGHT, false, false); (void)win_comp_pos(); clear_cmdline = true; } // When switching from global statusline, increase height of topframe by STATUS_HEIGHT // in order to to re-add the space that was previously taken by the global statusline if (old_value == 3 && value != 3) { frame_new_height(topframe, topframe->fr_height + STATUS_HEIGHT, false, false); (void)win_comp_pos(); } last_status(false); // (re)set last window status line. } else if (pp == &p_stal) { // (re)set tab page line win_new_screen_rows(); // recompute window positions and heights } else if (pp == &curwin->w_p_fdl) { newFoldLevel(); } else if (pp == &curwin->w_p_fml) { foldUpdateAll(curwin); } else if (pp == &curwin->w_p_fdn) { if (foldmethodIsSyntax(curwin) || foldmethodIsIndent(curwin)) { foldUpdateAll(curwin); } } else if (pp == &curbuf->b_p_sw || pp == &curbuf->b_p_ts) { // 'shiftwidth' or 'tabstop' if (foldmethodIsIndent(curwin)) { foldUpdateAll(curwin); } // When 'shiftwidth' changes, or it's zero and 'tabstop' changes: // parse 'cinoptions'. if (pp == &curbuf->b_p_sw || curbuf->b_p_sw == 0) { parse_cino(curbuf); } } else if (pp == &curbuf->b_p_iminsert) { showmode(); // Show/unshow value of 'keymap' in status lines. status_redraw_curbuf(); } else if (pp == &p_titlelen) { // if 'titlelen' has changed, redraw the title if (starting != NO_SCREEN && old_value != p_titlelen) { need_maketitle = true; } } else if (pp == &p_ch) { // if p_ch changed value, change the command line height // Only compute the new window layout when startup has been // completed. Otherwise the frame sizes may be wrong. if ((p_ch != old_value || tabline_height() + global_stl_height() + topframe->fr_height != Rows - p_ch) && full_screen) { command_height(); } } else if (pp == &p_uc) { // when 'updatecount' changes from zero to non-zero, open swap files if (p_uc && !old_value) { ml_open_files(); } } else if (pp == &p_pb) { p_pb = MAX(MIN(p_pb, 100), 0); hl_invalidate_blends(); pum_grid.blending = (p_pb > 0); if (pum_drawn()) { pum_redraw(); } } else if (pp == &p_ul || pp == &curbuf->b_p_ul) { // sync undo before 'undolevels' changes // use the old value, otherwise u_sync() may not work properly *pp = old_value; u_sync(true); *pp = value; } else if (pp == &curbuf->b_p_tw) { FOR_ALL_TAB_WINDOWS(tp, wp) { check_colorcolumn(wp); } } else if (pp == &curbuf->b_p_scbk || pp == &p_scbk) { if (curbuf->terminal && value < old_value) { // Force the scrollback to take immediate effect only when decreasing it. on_scrollback_option_changed(curbuf->terminal); } } else if (pp == &curwin->w_p_nuw) { curwin->w_nrwidth_line_count = 0; } else if (pp == &curwin->w_p_winbl && value != old_value) { // 'winblend' curwin->w_p_winbl = MAX(MIN(curwin->w_p_winbl, 100), 0); curwin->w_hl_needs_update = true; check_blending(curwin); } // Check the (new) bounds for Rows and Columns here. if (p_lines < min_rows() && full_screen) { if (errbuf != NULL) { vim_snprintf(errbuf, errbuflen, _("E593: Need at least %d lines"), min_rows()); errmsg = errbuf; } p_lines = min_rows(); } if (p_columns < MIN_COLUMNS && full_screen) { if (errbuf != NULL) { vim_snprintf(errbuf, errbuflen, _("E594: Need at least %d columns"), MIN_COLUMNS); errmsg = errbuf; } p_columns = MIN_COLUMNS; } // True max size is defined by check_screensize() p_lines = MIN(p_lines, INT_MAX); p_columns = MIN(p_columns, INT_MAX); // If the screen (shell) height has been changed, assume it is the // physical screenheight. if (p_lines != Rows || p_columns != Columns) { // Changing the screen size is not allowed while updating the screen. if (updating_screen) { *pp = old_value; } else if (full_screen) { screen_resize((int)p_columns, (int)p_lines); } else { // TODO(bfredl): is this branch ever needed? // Postpone the resizing; check the size and cmdline position for // messages. Rows = (int)p_lines; Columns = (int)p_columns; check_screensize(); int new_row = (int)(Rows - MAX(p_ch, 1)); if (cmdline_row > new_row && Rows > p_ch) { assert(p_ch >= 0 && new_row <= INT_MAX); cmdline_row = new_row; } } if (p_window >= Rows || !option_was_set("window")) { p_window = Rows - 1; } } if ((curwin->w_p_scr <= 0 || (curwin->w_p_scr > curwin->w_height && curwin->w_height > 0)) && full_screen) { if (pp == &(curwin->w_p_scr)) { if (curwin->w_p_scr != 0) { errmsg = e_scroll; } win_comp_scroll(curwin); } else if (curwin->w_p_scr <= 0) { // If 'scroll' became invalid because of a side effect silently adjust it. curwin->w_p_scr = 1; } else { // curwin->w_p_scr > curwin->w_height curwin->w_p_scr = curwin->w_height; } } if ((p_sj < -100 || p_sj >= Rows) && full_screen) { if (Rows != old_Rows) { // Rows changed, just adjust p_sj p_sj = Rows / 2; } else { errmsg = e_scroll; p_sj = 1; } } // May set global value for local option. if ((opt_flags & (OPT_LOCAL | OPT_GLOBAL)) == 0) { *(long *)get_varp_scope(&(options[opt_idx]), OPT_GLOBAL) = *pp; } options[opt_idx].flags |= P_WAS_SET; // Don't do this while starting up, failure or recursively. if (!starting && errmsg == NULL && *get_vim_var_str(VV_OPTION_TYPE) == NUL) { char buf_old[NUMBUFLEN]; char buf_old_global[NUMBUFLEN]; char buf_new[NUMBUFLEN]; char buf_type[7]; vim_snprintf(buf_old, ARRAY_SIZE(buf_old), "%ld", old_value); vim_snprintf(buf_old_global, ARRAY_SIZE(buf_old_global), "%ld", old_global_value); vim_snprintf(buf_new, ARRAY_SIZE(buf_new), "%ld", value); vim_snprintf(buf_type, ARRAY_SIZE(buf_type), "%s", (opt_flags & OPT_LOCAL) ? "local" : "global"); set_vim_var_string(VV_OPTION_NEW, buf_new, -1); set_vim_var_string(VV_OPTION_OLD, buf_old, -1); set_vim_var_string(VV_OPTION_TYPE, buf_type, -1); if (opt_flags & OPT_LOCAL) { set_vim_var_string(VV_OPTION_COMMAND, "setlocal", -1); set_vim_var_string(VV_OPTION_OLDLOCAL, buf_old, -1); } if (opt_flags & OPT_GLOBAL) { set_vim_var_string(VV_OPTION_COMMAND, "setglobal", -1); set_vim_var_string(VV_OPTION_OLDGLOBAL, buf_old, -1); } if ((opt_flags & (OPT_LOCAL | OPT_GLOBAL)) == 0) { set_vim_var_string(VV_OPTION_COMMAND, "set", -1); set_vim_var_string(VV_OPTION_OLDLOCAL, buf_old, -1); set_vim_var_string(VV_OPTION_OLDGLOBAL, buf_old_global, -1); } if (opt_flags & OPT_MODELINE) { set_vim_var_string(VV_OPTION_COMMAND, "modeline", -1); set_vim_var_string(VV_OPTION_OLDLOCAL, buf_old, -1); } apply_autocmds(EVENT_OPTIONSET, options[opt_idx].fullname, NULL, false, NULL); reset_v_option_vars(); } if (errmsg == NULL && options[opt_idx].flags & P_UI_OPTION) { ui_call_option_set(cstr_as_string(options[opt_idx].fullname), INTEGER_OBJ(*pp)); } comp_col(); // in case 'columns' or 'ls' changed if (curwin->w_curswant != MAXCOL && (options[opt_idx].flags & (P_CURSWANT | P_RALL)) != 0) { curwin->w_set_curswant = true; } check_redraw(options[opt_idx].flags); return errmsg; } /// Called after an option changed: check if something needs to be redrawn. void check_redraw(uint32_t flags) { // Careful: P_RALL is a combination of other P_ flags bool all = (flags & P_RALL) == P_RALL; if ((flags & P_RSTAT) || all) { // mark all status lines and window bars dirty status_redraw_all(); } if ((flags & P_RBUF) || (flags & P_RWIN) || all) { changed_window_setting(); } if (flags & P_RBUF) { redraw_curbuf_later(UPD_NOT_VALID); } if (flags & P_RWINONLY) { redraw_later(curwin, UPD_NOT_VALID); } if (all) { redraw_all_later(UPD_NOT_VALID); } } /// Find index for named option /// /// @param[in] arg Option to find index for. /// @param[in] len Length of the option. /// /// @return Index of the option or -1 if option was not found. int findoption_len(const char *const arg, const size_t len) { const char *s; const char *p; static int quick_tab[27] = { 0, 0 }; // quick access table // For first call: Initialize the quick-access table. // It contains the index for the first option that starts with a certain // letter. There are 26 letters, plus the first "t_" option. if (quick_tab[1] == 0) { p = options[0].fullname; for (short int i = 1; (s = options[i].fullname) != NULL; i++) { if (s[0] != p[0]) { if (s[0] == 't' && s[1] == '_') { quick_tab[26] = i; } else { quick_tab[CHAR_ORD_LOW(s[0])] = i; } } p = s; } } // Check for name starting with an illegal character. if (len == 0 || arg[0] < 'a' || arg[0] > 'z') { return -1; } int opt_idx; const bool is_term_opt = (len > 2 && arg[0] == 't' && arg[1] == '_'); if (is_term_opt) { opt_idx = quick_tab[26]; } else { opt_idx = quick_tab[CHAR_ORD_LOW(arg[0])]; } // Match full name for (; (s = options[opt_idx].fullname) != NULL; opt_idx++) { if (strncmp(arg, s, len) == 0 && s[len] == NUL) { break; } } if (s == NULL && !is_term_opt) { opt_idx = quick_tab[CHAR_ORD_LOW(arg[0])]; // Match short name for (; options[opt_idx].fullname != NULL; opt_idx++) { s = options[opt_idx].shortname; if (s != NULL && strncmp(arg, s, len) == 0 && s[len] == NUL) { break; } s = NULL; } } if (s == NULL) { opt_idx = -1; } else { // Nvim: handle option aliases. if (STRNCMP(options[opt_idx].fullname, "viminfo", 7) == 0) { if (strlen(options[opt_idx].fullname) == 7) { return findoption_len("shada", 5); } assert(strcmp(options[opt_idx].fullname, "viminfofile") == 0); return findoption_len("shadafile", 9); } } return opt_idx; } bool is_tty_option(const char *name) FUNC_ATTR_NONNULL_ALL FUNC_ATTR_PURE FUNC_ATTR_WARN_UNUSED_RESULT { return (name[0] == 't' && name[1] == '_') || strequal(name, "term") || strequal(name, "ttytype"); } #define TCO_BUFFER_SIZE 8 /// @param name TUI-related option /// @param[out,allocated] value option string value bool get_tty_option(const char *name, char **value) { if (strequal(name, "t_Co")) { if (value) { if (t_colors <= 1) { *value = xstrdup(""); } else { *value = xmalloc(TCO_BUFFER_SIZE); snprintf(*value, TCO_BUFFER_SIZE, "%d", t_colors); } } return true; } if (strequal(name, "term")) { if (value) { *value = p_term ? xstrdup(p_term) : xstrdup("nvim"); } return true; } if (strequal(name, "ttytype")) { if (value) { *value = p_ttytype ? xstrdup(p_ttytype) : xstrdup("nvim"); } return true; } if (is_tty_option(name)) { if (value) { // XXX: All other t_* options were removed in 3baba1e7. *value = xstrdup(""); } return true; } return false; } bool set_tty_option(const char *name, char *value) { if (strequal(name, "term")) { if (p_term) { xfree(p_term); } p_term = value; return true; } if (strequal(name, "ttytype")) { if (p_ttytype) { xfree(p_ttytype); } p_ttytype = value; return true; } return false; } void set_tty_background(const char *value) { if (option_was_set("bg") || strequal(p_bg, value)) { // background is already set... ignore return; } if (starting) { // Wait until after startup, so OptionSet is triggered. do_cmdline_cmd((value[0] == 'l') ? "autocmd VimEnter * ++once ++nested set bg=light" : "autocmd VimEnter * ++once ++nested set bg=dark"); } else { set_option_value_give_err("bg", 0L, value, 0); reset_option_was_set("bg"); } } /// Find index for an option /// /// @param[in] arg Option name. /// /// @return Option index or -1 if option was not found. int findoption(const char *const arg) FUNC_ATTR_NONNULL_ALL { return findoption_len(arg, strlen(arg)); } /// Gets the value for an option. /// /// @param stringval NULL when only checking existence /// /// @returns: /// Number option: gov_number, *numval gets value. /// Tottle option: gov_bool, *numval gets value. /// String option: gov_string, *stringval gets allocated string. /// Hidden Number option: gov_hidden_number. /// Hidden Toggle option: gov_hidden_bool. /// Hidden String option: gov_hidden_string. /// Unknown option: gov_unknown. getoption_T get_option_value(const char *name, long *numval, char **stringval, int opt_flags) { if (get_tty_option(name, stringval)) { return gov_string; } int opt_idx = findoption(name); if (opt_idx < 0) { // option not in the table return gov_unknown; } char_u *varp = (char_u *)get_varp_scope(&(options[opt_idx]), opt_flags); if (options[opt_idx].flags & P_STRING) { if (varp == NULL) { // hidden option return gov_hidden_string; } if (stringval != NULL) { if ((char **)varp == &p_pt) { // 'pastetoggle' *stringval = str2special_save(*(char **)(varp), false, false); } else { *stringval = xstrdup(*(char **)(varp)); } } return gov_string; } if (varp == NULL) { // hidden option return (options[opt_idx].flags & P_NUM) ? gov_hidden_number : gov_hidden_bool; } if (options[opt_idx].flags & P_NUM) { *numval = *(long *)varp; } else { // Special case: 'modified' is b_changed, but we also want to consider // it set when 'ff' or 'fenc' changed. if ((int *)varp == &curbuf->b_changed) { *numval = curbufIsChanged(); } else { *numval = (long)(*(int *)varp); } } return (options[opt_idx].flags & P_NUM) ? gov_number : gov_bool; } // Returns the option attributes and its value. Unlike the above function it // will return either global value or local value of the option depending on // what was requested, but it will never return global value if it was // requested to return local one and vice versa. Neither it will return // buffer-local value if it was requested to return window-local one. // // Pretends that option is absent if it is not present in the requested scope // (i.e. has no global, window-local or buffer-local value depending on // opt_type). // // Returned flags: // 0 hidden or unknown option, also option that does not have requested // type (see SREQ_* in option_defs.h) // see SOPT_* in option_defs.h for other flags // // Possible opt_type values: see SREQ_* in option_defs.h int get_option_value_strict(char *name, int64_t *numval, char **stringval, int opt_type, void *from) { if (get_tty_option(name, stringval)) { return SOPT_STRING | SOPT_GLOBAL; } char_u *varp = NULL; int rv = 0; int opt_idx = findoption(name); if (opt_idx < 0) { return 0; } vimoption_T *p = &options[opt_idx]; // Hidden option if (p->var == NULL) { return 0; } if (p->flags & P_BOOL) { rv |= SOPT_BOOL; } else if (p->flags & P_NUM) { rv |= SOPT_NUM; } else if (p->flags & P_STRING) { rv |= SOPT_STRING; } if (p->indir == PV_NONE) { if (opt_type == SREQ_GLOBAL) { rv |= SOPT_GLOBAL; } else { return 0; // Did not request global-only option } } else { if (p->indir & PV_BOTH) { rv |= SOPT_GLOBAL; } if (p->indir & PV_WIN) { if (opt_type == SREQ_BUF) { return 0; // Requested buffer-local, not window-local option } else { rv |= SOPT_WIN; } } else if (p->indir & PV_BUF) { if (opt_type == SREQ_WIN) { return 0; // Requested window-local, not buffer-local option } else { rv |= SOPT_BUF; } } } if (stringval == NULL) { return rv; } if (opt_type == SREQ_GLOBAL) { if (p->var == VAR_WIN) { return 0; } else { varp = p->var; } } else { if (opt_type == SREQ_BUF) { // Special case: 'modified' is b_changed, but we also want to // consider it set when 'ff' or 'fenc' changed. if (p->indir == PV_MOD) { *numval = bufIsChanged((buf_T *)from); varp = NULL; } else { buf_T *save_curbuf = curbuf; // only getting a pointer, no need to use aucmd_prepbuf() curbuf = (buf_T *)from; curwin->w_buffer = curbuf; varp = (char_u *)get_varp_scope(p, OPT_LOCAL); curbuf = save_curbuf; curwin->w_buffer = curbuf; } } else if (opt_type == SREQ_WIN) { win_T *save_curwin = curwin; curwin = (win_T *)from; curbuf = curwin->w_buffer; varp = (char_u *)get_varp_scope(p, OPT_LOCAL); curwin = save_curwin; curbuf = curwin->w_buffer; } if (varp == p->var) { return (rv | SOPT_UNSET); } } if (varp != NULL) { if (p->flags & P_STRING) { *stringval = xstrdup(*(char **)(varp)); } else if (p->flags & P_NUM) { *numval = *(long *)varp; } else { *numval = *(int *)varp; } } return rv; } // Return information for option at 'opt_idx' vimoption_T *get_option(int opt_idx) { return &options[opt_idx]; } /// Set the value of an option /// /// @param[in] name Option name. /// @param[in] number New value for the number or boolean option. /// @param[in] string New value for string option. /// @param[in] opt_flags Flags: OPT_LOCAL, OPT_GLOBAL, or 0 (both). /// If OPT_CLEAR is set, the value of the option /// is cleared (the exact semantics of this depend /// on the option). /// /// @return NULL on success, an untranslated error message on error. char *set_option_value(const char *const name, const long number, const char *const string, const int opt_flags) FUNC_ATTR_NONNULL_ARG(1) { if (is_tty_option(name)) { return NULL; // Fail silently; many old vimrcs set t_xx options. } int opt_idx; char_u *varp; opt_idx = findoption(name); if (opt_idx < 0) { semsg(_("E355: Unknown option: %s"), name); } else { uint32_t flags = options[opt_idx].flags; // Disallow changing some options in the sandbox if (sandbox > 0 && (flags & P_SECURE)) { emsg(_(e_sandbox)); return NULL; } if (flags & P_STRING) { const char *s = string; if (s == NULL || opt_flags & OPT_CLEAR) { s = ""; } return set_string_option(opt_idx, s, opt_flags); } varp = (char_u *)get_varp_scope(&(options[opt_idx]), opt_flags); if (varp != NULL) { // hidden option is not changed if (number == 0 && string != NULL) { int idx; // Either we are given a string or we are setting option // to zero. for (idx = 0; string[idx] == '0'; idx++) {} if (string[idx] != NUL || idx == 0) { // There's another character after zeros or the string // is empty. In both cases, we are trying to set a // num option using a string. semsg(_("E521: Number required: &%s = '%s'"), name, string); return NULL; // do nothing as we hit an error } } long numval = number; if (opt_flags & OPT_CLEAR) { if ((int *)varp == &curbuf->b_p_ar) { numval = -1; } else if ((long *)varp == &curbuf->b_p_ul) { numval = NO_LOCAL_UNDOLEVEL; } else if ((long *)varp == &curwin->w_p_so || (long *)varp == &curwin->w_p_siso) { numval = -1; } else { char *s = NULL; (void)get_option_value(name, &numval, &s, OPT_GLOBAL); } } if (flags & P_NUM) { return set_num_option(opt_idx, varp, numval, NULL, 0, opt_flags); } else { return set_bool_option(opt_idx, varp, (int)numval, opt_flags); } } } return NULL; } /// Call set_option_value() and when an error is returned report it. /// /// @param opt_flags OPT_LOCAL or 0 (both) void set_option_value_give_err(const char *name, long number, const char *string, int opt_flags) { char *errmsg = set_option_value(name, number, string, opt_flags); if (errmsg != NULL) { emsg(_(errmsg)); } } /// Return true if "name" is a string option. /// Returns false if option "name" does not exist. bool is_string_option(const char *name) { int idx = findoption(name); return idx >= 0 && (options[idx].flags & P_STRING); } // Translate a string like "t_xx", "" or "" to a key number. // When "has_lt" is true there is a '<' before "*arg_arg". // Returns 0 when the key is not recognized. int find_key_option_len(const char_u *arg_arg, size_t len, bool has_lt) { int key = 0; int modifiers; const char_u *arg = arg_arg; // Don't use get_special_key_code() for t_xx, we don't want it to call // add_termcap_entry(). if (len >= 4 && arg[0] == 't' && arg[1] == '_') { key = TERMCAP2KEY(arg[2], arg[3]); } else if (has_lt) { arg--; // put arg at the '<' modifiers = 0; key = find_special_key(&arg, len + 1, &modifiers, FSK_KEYCODE | FSK_KEEP_X_KEY | FSK_SIMPLIFY, NULL); if (modifiers) { // can't handle modifiers here key = 0; } } return key; } static int find_key_option(const char_u *arg, bool has_lt) { return find_key_option_len(arg, STRLEN(arg), has_lt); } /// if 'all' == 0: show changed options /// if 'all' == 1: show all normal options /// /// @param opt_flags OPT_LOCAL and/or OPT_GLOBAL static void showoptions(int all, int opt_flags) { vimoption_T *p; int col; char_u *varp; int item_count; int run; int row, rows; int cols; int i; int len; #define INC 20 #define GAP 3 vimoption_T **items = xmalloc(sizeof(vimoption_T *) * OPTION_COUNT); // Highlight title if (opt_flags & OPT_GLOBAL) { msg_puts_title(_("\n--- Global option values ---")); } else if (opt_flags & OPT_LOCAL) { msg_puts_title(_("\n--- Local option values ---")); } else { msg_puts_title(_("\n--- Options ---")); } // Do the loop two times: // 1. display the short items // 2. display the long items (only strings and numbers) // When "opt_flags" has OPT_ONECOLUMN do everything in run 2. for (run = 1; run <= 2 && !got_int; run++) { // collect the items in items[] item_count = 0; for (p = &options[0]; p->fullname != NULL; p++) { // apply :filter /pat/ if (message_filtered(p->fullname)) { continue; } varp = NULL; if ((opt_flags & (OPT_LOCAL | OPT_GLOBAL)) != 0) { if (p->indir != PV_NONE) { varp = (char_u *)get_varp_scope(p, opt_flags); } } else { varp = get_varp(p); } if (varp != NULL && (all == 1 || (all == 0 && !optval_default(p, varp)))) { if (opt_flags & OPT_ONECOLUMN) { len = Columns; } else if (p->flags & P_BOOL) { len = 1; // a toggle option fits always } else { option_value2string(p, opt_flags); len = (int)strlen(p->fullname) + vim_strsize((char *)NameBuff) + 1; } if ((len <= INC - GAP && run == 1) || (len > INC - GAP && run == 2)) { items[item_count++] = p; } } } // display the items if (run == 1) { assert(Columns <= INT_MAX - GAP && Columns + GAP >= INT_MIN + 3 && (Columns + GAP - 3) / INC >= INT_MIN && (Columns + GAP - 3) / INC <= INT_MAX); cols = (Columns + GAP - 3) / INC; if (cols == 0) { cols = 1; } rows = (item_count + cols - 1) / cols; } else { // run == 2 rows = item_count; } for (row = 0; row < rows && !got_int; row++) { msg_putchar('\n'); // go to next line if (got_int) { // 'q' typed in more break; } col = 0; for (i = row; i < item_count; i += rows) { msg_col = col; // make columns showoneopt(items[i], opt_flags); col += INC; } os_breakcheck(); } } xfree(items); } /// Return true if option "p" has its default value. static int optval_default(vimoption_T *p, char_u *varp) { if (varp == NULL) { return true; // hidden option is always at default } if (p->flags & P_NUM) { return *(long *)varp == (long)(intptr_t)p->def_val; } if (p->flags & P_BOOL) { return *(int *)varp == (int)(intptr_t)p->def_val; } // P_STRING return strcmp(*(char **)varp, p->def_val) == 0; } /// Send update to UIs with values of UI relevant options void ui_refresh_options(void) { for (int opt_idx = 0; options[opt_idx].fullname; opt_idx++) { uint32_t flags = options[opt_idx].flags; if (!(flags & P_UI_OPTION)) { continue; } String name = cstr_as_string(options[opt_idx].fullname); void *varp = options[opt_idx].var; Object value = OBJECT_INIT; if (flags & P_BOOL) { value = BOOLEAN_OBJ(*(int *)varp); } else if (flags & P_NUM) { value = INTEGER_OBJ(*(long *)varp); } else if (flags & P_STRING) { // cstr_as_string handles NULL string value = STRING_OBJ(cstr_as_string(*(char **)varp)); } ui_call_option_set(name, value); } if (p_mouse != NULL) { setmouse(); } } /// showoneopt: show the value of one option /// must not be called with a hidden option! /// /// @param opt_flags OPT_LOCAL or OPT_GLOBAL static void showoneopt(vimoption_T *p, int opt_flags) { int save_silent = silent_mode; silent_mode = false; info_message = true; // use mch_msg(), not mch_errmsg() char_u *varp = (char_u *)get_varp_scope(p, opt_flags); // for 'modified' we also need to check if 'ff' or 'fenc' changed. if ((p->flags & P_BOOL) && ((int *)varp == &curbuf->b_changed ? !curbufIsChanged() : !*(int *)varp)) { msg_puts("no"); } else if ((p->flags & P_BOOL) && *(int *)varp < 0) { msg_puts("--"); } else { msg_puts(" "); } msg_puts(p->fullname); if (!(p->flags & P_BOOL)) { msg_putchar('='); // put value string in NameBuff option_value2string(p, opt_flags); msg_outtrans((char *)NameBuff); } silent_mode = save_silent; info_message = false; } /// Write modified options as ":set" commands to a file. /// /// There are three values for "opt_flags": /// OPT_GLOBAL: Write global option values and fresh values of /// buffer-local options (used for start of a session /// file). /// OPT_GLOBAL + OPT_LOCAL: Idem, add fresh values of window-local options for /// curwin (used for a vimrc file). /// OPT_LOCAL: Write buffer-local option values for curbuf, fresh /// and local values for window-local options of /// curwin. Local values are also written when at the /// default value, because a modeline or autocommand /// may have set them when doing ":edit file" and the /// user has set them back at the default or fresh /// value. /// When "local_only" is true, don't write fresh /// values, only local values (for ":mkview"). /// (fresh value = value used for a new buffer or window for a local option). /// /// Return FAIL on error, OK otherwise. int makeset(FILE *fd, int opt_flags, int local_only) { vimoption_T *p; char *varp; // currently used value char_u *varp_fresh; // local value char_u *varp_local = NULL; // fresh value char *cmd; int round; int pri; // Some options are never written: // - Options that don't have a default (terminal name, columns, lines). // - Terminal options. // - Hidden options. // // Do the loop over "options[]" twice: once for options with the // P_PRI_MKRC flag and once without. for (pri = 1; pri >= 0; pri--) { for (p = &options[0]; p->fullname; p++) { if (!(p->flags & P_NO_MKRC) && ((pri == 1) == ((p->flags & P_PRI_MKRC) != 0))) { // skip global option when only doing locals if (p->indir == PV_NONE && !(opt_flags & OPT_GLOBAL)) { continue; } // Do not store options like 'bufhidden' and 'syntax' in a vimrc // file, they are always buffer-specific. if ((opt_flags & OPT_GLOBAL) && (p->flags & P_NOGLOB)) { continue; } varp = get_varp_scope(p, opt_flags); // Hidden options are never written. if (!varp) { continue; } // Global values are only written when not at the default value. if ((opt_flags & OPT_GLOBAL) && optval_default(p, (char_u *)varp)) { continue; } if ((opt_flags & OPT_SKIPRTP) && (p->var == (char_u *)&p_rtp || p->var == (char_u *)&p_pp)) { continue; } round = 2; if (p->indir != PV_NONE) { if (p->var == VAR_WIN) { // skip window-local option when only doing globals if (!(opt_flags & OPT_LOCAL)) { continue; } // When fresh value of window-local option is not at the // default, need to write it too. if (!(opt_flags & OPT_GLOBAL) && !local_only) { varp_fresh = (char_u *)get_varp_scope(p, OPT_GLOBAL); if (!optval_default(p, varp_fresh)) { round = 1; varp_local = (char_u *)varp; varp = (char *)varp_fresh; } } } } // Round 1: fresh value for window-local options. // Round 2: other values for (; round <= 2; varp = (char *)varp_local, round++) { if (round == 1 || (opt_flags & OPT_GLOBAL)) { cmd = "set"; } else { cmd = "setlocal"; } if (p->flags & P_BOOL) { if (put_setbool(fd, cmd, p->fullname, *(int *)varp) == FAIL) { return FAIL; } } else if (p->flags & P_NUM) { if (put_setnum(fd, cmd, p->fullname, (long *)varp) == FAIL) { return FAIL; } } else { // P_STRING int do_endif = false; // Don't set 'syntax' and 'filetype' again if the value is // already right, avoids reloading the syntax file. if (p->indir == PV_SYN || p->indir == PV_FT) { if (fprintf(fd, "if &%s != '%s'", p->fullname, *(char_u **)(varp)) < 0 || put_eol(fd) < 0) { return FAIL; } do_endif = true; } if (put_setstring(fd, cmd, p->fullname, (char **)varp, p->flags) == FAIL) { return FAIL; } if (do_endif) { if (put_line(fd, "endif") == FAIL) { return FAIL; } } } } } } } return OK; } /// Generate set commands for the local fold options only. Used when /// 'sessionoptions' or 'viewoptions' contains "folds" but not "options". int makefoldset(FILE *fd) { if (put_setstring(fd, "setlocal", "fdm", &curwin->w_p_fdm, 0) == FAIL || put_setstring(fd, "setlocal", "fde", &curwin->w_p_fde, 0) == FAIL || put_setstring(fd, "setlocal", "fmr", &curwin->w_p_fmr, 0) == FAIL || put_setstring(fd, "setlocal", "fdi", &curwin->w_p_fdi, 0) == FAIL || put_setnum(fd, "setlocal", "fdl", &curwin->w_p_fdl) == FAIL || put_setnum(fd, "setlocal", "fml", &curwin->w_p_fml) == FAIL || put_setnum(fd, "setlocal", "fdn", &curwin->w_p_fdn) == FAIL || put_setbool(fd, "setlocal", "fen", curwin->w_p_fen) == FAIL) { return FAIL; } return OK; } static int put_setstring(FILE *fd, char *cmd, char *name, char **valuep, uint64_t flags) { char_u *s; char_u *buf = NULL; char_u *part = NULL; char *p; if (fprintf(fd, "%s %s=", cmd, name) < 0) { return FAIL; } if (*valuep != NULL) { // Output 'pastetoggle' as key names. For other // options some characters have to be escaped with // CTRL-V or backslash if (valuep == &p_pt) { s = (char_u *)(*valuep); while (*s != NUL) { if (put_escstr(fd, (char_u *)str2special((const char **)&s, false, false), 2) == FAIL) { return FAIL; } } } else if ((flags & P_EXPAND) != 0) { size_t size = (size_t)strlen(*valuep) + 1; // replace home directory in the whole option value into "buf" buf = xmalloc(size); home_replace(NULL, *valuep, (char *)buf, size, false); // If the option value is longer than MAXPATHL, we need to append // each comma separated part of the option separately, so that it // can be expanded when read back. if (size >= MAXPATHL && (flags & P_COMMA) != 0 && vim_strchr(*valuep, ',') != NULL) { part = xmalloc(size); // write line break to clear the option, e.g. ':set rtp=' if (put_eol(fd) == FAIL) { goto fail; } p = (char *)buf; while (*p != NUL) { // for each comma separated option part, append value to // the option, :set rtp+=value if (fprintf(fd, "%s %s+=", cmd, name) < 0) { goto fail; } (void)copy_option_part(&p, (char *)part, size, ","); if (put_escstr(fd, part, 2) == FAIL || put_eol(fd) == FAIL) { goto fail; } } xfree(buf); xfree(part); return OK; } if (put_escstr(fd, buf, 2) == FAIL) { xfree(buf); return FAIL; } xfree(buf); } else if (put_escstr(fd, (char_u *)(*valuep), 2) == FAIL) { return FAIL; } } if (put_eol(fd) < 0) { return FAIL; } return OK; fail: xfree(buf); xfree(part); return FAIL; } static int put_setnum(FILE *fd, char *cmd, char *name, long *valuep) { long wc; if (fprintf(fd, "%s %s=", cmd, name) < 0) { return FAIL; } if (wc_use_keyname((char_u *)valuep, &wc)) { // print 'wildchar' and 'wildcharm' as a key name if (fputs((char *)get_special_key_name((int)wc, 0), fd) < 0) { return FAIL; } } else if (fprintf(fd, "%" PRId64, (int64_t)(*valuep)) < 0) { return FAIL; } if (put_eol(fd) < 0) { return FAIL; } return OK; } static int put_setbool(FILE *fd, char *cmd, char *name, int value) { if (value < 0) { // global/local option using global value return OK; } if (fprintf(fd, "%s %s%s", cmd, value ? "" : "no", name) < 0 || put_eol(fd) < 0) { return FAIL; } return OK; } // Unset local option value, similar to ":set opt<". void unset_global_local_option(char *name, void *from) { vimoption_T *p; buf_T *buf = (buf_T *)from; int opt_idx = findoption(name); if (opt_idx < 0) { semsg(_("E355: Unknown option: %s"), name); return; } p = &(options[opt_idx]); switch ((int)p->indir) { // global option with local value: use local value if it's been set case PV_EP: clear_string_option(&buf->b_p_ep); break; case PV_KP: clear_string_option(&buf->b_p_kp); break; case PV_PATH: clear_string_option(&buf->b_p_path); break; case PV_AR: buf->b_p_ar = -1; break; case PV_BKC: clear_string_option(&buf->b_p_bkc); buf->b_bkc_flags = 0; break; case PV_TAGS: clear_string_option(&buf->b_p_tags); break; case PV_TC: clear_string_option(&buf->b_p_tc); buf->b_tc_flags = 0; break; case PV_SISO: curwin->w_p_siso = -1; break; case PV_SO: curwin->w_p_so = -1; break; case PV_DEF: clear_string_option(&buf->b_p_def); break; case PV_INC: clear_string_option(&buf->b_p_inc); break; case PV_DICT: clear_string_option(&buf->b_p_dict); break; case PV_TSR: clear_string_option(&buf->b_p_tsr); break; case PV_TSRFU: clear_string_option(&buf->b_p_tsrfu); break; case PV_FP: clear_string_option(&buf->b_p_fp); break; case PV_EFM: clear_string_option(&buf->b_p_efm); break; case PV_GP: clear_string_option(&buf->b_p_gp); break; case PV_MP: clear_string_option(&buf->b_p_mp); break; case PV_SBR: clear_string_option(&((win_T *)from)->w_p_sbr); break; case PV_STL: clear_string_option(&((win_T *)from)->w_p_stl); break; case PV_WBR: clear_string_option(&((win_T *)from)->w_p_wbr); break; case PV_UL: buf->b_p_ul = NO_LOCAL_UNDOLEVEL; break; case PV_LW: clear_string_option(&buf->b_p_lw); break; case PV_MENC: clear_string_option(&buf->b_p_menc); break; case PV_LCS: clear_string_option(&((win_T *)from)->w_p_lcs); set_chars_option((win_T *)from, &((win_T *)from)->w_p_lcs, true); redraw_later((win_T *)from, UPD_NOT_VALID); break; case PV_FCS: clear_string_option(&((win_T *)from)->w_p_fcs); set_chars_option((win_T *)from, &((win_T *)from)->w_p_fcs, true); redraw_later((win_T *)from, UPD_NOT_VALID); break; case PV_VE: clear_string_option(&((win_T *)from)->w_p_ve); ((win_T *)from)->w_ve_flags = 0; break; } } /// Get pointer to option variable, depending on local or global scope. char *get_varp_scope(vimoption_T *p, int opt_flags) { if ((opt_flags & OPT_GLOBAL) && p->indir != PV_NONE) { if (p->var == VAR_WIN) { return GLOBAL_WO(get_varp(p)); } return (char *)p->var; } if ((opt_flags & OPT_LOCAL) && ((int)p->indir & PV_BOTH)) { switch ((int)p->indir) { case PV_FP: return (char *)&(curbuf->b_p_fp); case PV_EFM: return (char *)&(curbuf->b_p_efm); case PV_GP: return (char *)&(curbuf->b_p_gp); case PV_MP: return (char *)&(curbuf->b_p_mp); case PV_EP: return (char *)&(curbuf->b_p_ep); case PV_KP: return (char *)&(curbuf->b_p_kp); case PV_PATH: return (char *)&(curbuf->b_p_path); case PV_AR: return (char *)&(curbuf->b_p_ar); case PV_TAGS: return (char *)&(curbuf->b_p_tags); case PV_TC: return (char *)&(curbuf->b_p_tc); case PV_SISO: return (char *)&(curwin->w_p_siso); case PV_SO: return (char *)&(curwin->w_p_so); case PV_DEF: return (char *)&(curbuf->b_p_def); case PV_INC: return (char *)&(curbuf->b_p_inc); case PV_DICT: return (char *)&(curbuf->b_p_dict); case PV_TSR: return (char *)&(curbuf->b_p_tsr); case PV_TSRFU: return (char *)&(curbuf->b_p_tsrfu); case PV_TFU: return (char *)&(curbuf->b_p_tfu); case PV_SBR: return (char *)&(curwin->w_p_sbr); case PV_STL: return (char *)&(curwin->w_p_stl); case PV_WBR: return (char *)&(curwin->w_p_wbr); case PV_UL: return (char *)&(curbuf->b_p_ul); case PV_LW: return (char *)&(curbuf->b_p_lw); case PV_BKC: return (char *)&(curbuf->b_p_bkc); case PV_MENC: return (char *)&(curbuf->b_p_menc); case PV_FCS: return (char *)&(curwin->w_p_fcs); case PV_LCS: return (char *)&(curwin->w_p_lcs); case PV_VE: return (char *)&(curwin->w_p_ve); } return NULL; // "cannot happen" } return (char *)get_varp(p); } /// Get pointer to option variable. static char_u *get_varp(vimoption_T *p) { // hidden option, always return NULL if (p->var == NULL) { return NULL; } switch ((int)p->indir) { case PV_NONE: return p->var; // global option with local value: use local value if it's been set case PV_EP: return *curbuf->b_p_ep != NUL ? (char_u *)&curbuf->b_p_ep : p->var; case PV_KP: return *curbuf->b_p_kp != NUL ? (char_u *)&curbuf->b_p_kp : p->var; case PV_PATH: return *curbuf->b_p_path != NUL ? (char_u *)&(curbuf->b_p_path) : p->var; case PV_AR: return curbuf->b_p_ar >= 0 ? (char_u *)&(curbuf->b_p_ar) : p->var; case PV_TAGS: return *curbuf->b_p_tags != NUL ? (char_u *)&(curbuf->b_p_tags) : p->var; case PV_TC: return *curbuf->b_p_tc != NUL ? (char_u *)&(curbuf->b_p_tc) : p->var; case PV_SISO: return curwin->w_p_siso >= 0 ? (char_u *)&(curwin->w_p_siso) : p->var; case PV_SO: return curwin->w_p_so >= 0 ? (char_u *)&(curwin->w_p_so) : p->var; case PV_BKC: return *curbuf->b_p_bkc != NUL ? (char_u *)&(curbuf->b_p_bkc) : p->var; case PV_DEF: return *curbuf->b_p_def != NUL ? (char_u *)&(curbuf->b_p_def) : p->var; case PV_INC: return *curbuf->b_p_inc != NUL ? (char_u *)&(curbuf->b_p_inc) : p->var; case PV_DICT: return *curbuf->b_p_dict != NUL ? (char_u *)&(curbuf->b_p_dict) : p->var; case PV_TSR: return *curbuf->b_p_tsr != NUL ? (char_u *)&(curbuf->b_p_tsr) : p->var; case PV_TSRFU: return *curbuf->b_p_tsrfu != NUL ? (char_u *)&(curbuf->b_p_tsrfu) : p->var; case PV_FP: return *curbuf->b_p_fp != NUL ? (char_u *)&(curbuf->b_p_fp) : p->var; case PV_EFM: return *curbuf->b_p_efm != NUL ? (char_u *)&(curbuf->b_p_efm) : p->var; case PV_GP: return *curbuf->b_p_gp != NUL ? (char_u *)&(curbuf->b_p_gp) : p->var; case PV_MP: return *curbuf->b_p_mp != NUL ? (char_u *)&(curbuf->b_p_mp) : p->var; case PV_SBR: return *curwin->w_p_sbr != NUL ? (char_u *)&(curwin->w_p_sbr) : p->var; case PV_STL: return *curwin->w_p_stl != NUL ? (char_u *)&(curwin->w_p_stl) : p->var; case PV_WBR: return *curwin->w_p_wbr != NUL ? (char_u *)&(curwin->w_p_wbr) : p->var; case PV_UL: return curbuf->b_p_ul != NO_LOCAL_UNDOLEVEL ? (char_u *)&(curbuf->b_p_ul) : p->var; case PV_LW: return *curbuf->b_p_lw != NUL ? (char_u *)&(curbuf->b_p_lw) : p->var; case PV_MENC: return *curbuf->b_p_menc != NUL ? (char_u *)&(curbuf->b_p_menc) : p->var; case PV_FCS: return *curwin->w_p_fcs != NUL ? (char_u *)&(curwin->w_p_fcs) : p->var; case PV_LCS: return *curwin->w_p_lcs != NUL ? (char_u *)&(curwin->w_p_lcs) : p->var; case PV_VE: return *curwin->w_p_ve != NUL ? (char_u *)&curwin->w_p_ve : p->var; case PV_ARAB: return (char_u *)&(curwin->w_p_arab); case PV_LIST: return (char_u *)&(curwin->w_p_list); case PV_SPELL: return (char_u *)&(curwin->w_p_spell); case PV_CUC: return (char_u *)&(curwin->w_p_cuc); case PV_CUL: return (char_u *)&(curwin->w_p_cul); case PV_CULOPT: return (char_u *)&(curwin->w_p_culopt); case PV_CC: return (char_u *)&(curwin->w_p_cc); case PV_DIFF: return (char_u *)&(curwin->w_p_diff); case PV_FDC: return (char_u *)&(curwin->w_p_fdc); case PV_FEN: return (char_u *)&(curwin->w_p_fen); case PV_FDI: return (char_u *)&(curwin->w_p_fdi); case PV_FDL: return (char_u *)&(curwin->w_p_fdl); case PV_FDM: return (char_u *)&(curwin->w_p_fdm); case PV_FML: return (char_u *)&(curwin->w_p_fml); case PV_FDN: return (char_u *)&(curwin->w_p_fdn); case PV_FDE: return (char_u *)&(curwin->w_p_fde); case PV_FDT: return (char_u *)&(curwin->w_p_fdt); case PV_FMR: return (char_u *)&(curwin->w_p_fmr); case PV_NU: return (char_u *)&(curwin->w_p_nu); case PV_RNU: return (char_u *)&(curwin->w_p_rnu); case PV_NUW: return (char_u *)&(curwin->w_p_nuw); case PV_WFH: return (char_u *)&(curwin->w_p_wfh); case PV_WFW: return (char_u *)&(curwin->w_p_wfw); case PV_PVW: return (char_u *)&(curwin->w_p_pvw); case PV_RL: return (char_u *)&(curwin->w_p_rl); case PV_RLC: return (char_u *)&(curwin->w_p_rlc); case PV_SCROLL: return (char_u *)&(curwin->w_p_scr); case PV_WRAP: return (char_u *)&(curwin->w_p_wrap); case PV_LBR: return (char_u *)&(curwin->w_p_lbr); case PV_BRI: return (char_u *)&(curwin->w_p_bri); case PV_BRIOPT: return (char_u *)&(curwin->w_p_briopt); case PV_SCBIND: return (char_u *)&(curwin->w_p_scb); case PV_CRBIND: return (char_u *)&(curwin->w_p_crb); case PV_COCU: return (char_u *)&(curwin->w_p_cocu); case PV_COLE: return (char_u *)&(curwin->w_p_cole); case PV_AI: return (char_u *)&(curbuf->b_p_ai); case PV_BIN: return (char_u *)&(curbuf->b_p_bin); case PV_BOMB: return (char_u *)&(curbuf->b_p_bomb); case PV_BH: return (char_u *)&(curbuf->b_p_bh); case PV_BT: return (char_u *)&(curbuf->b_p_bt); case PV_BL: return (char_u *)&(curbuf->b_p_bl); case PV_CHANNEL: return (char_u *)&(curbuf->b_p_channel); case PV_CI: return (char_u *)&(curbuf->b_p_ci); case PV_CIN: return (char_u *)&(curbuf->b_p_cin); case PV_CINK: return (char_u *)&(curbuf->b_p_cink); case PV_CINO: return (char_u *)&(curbuf->b_p_cino); case PV_CINSD: return (char_u *)&(curbuf->b_p_cinsd); case PV_CINW: return (char_u *)&(curbuf->b_p_cinw); case PV_COM: return (char_u *)&(curbuf->b_p_com); case PV_CMS: return (char_u *)&(curbuf->b_p_cms); case PV_CPT: return (char_u *)&(curbuf->b_p_cpt); #ifdef BACKSLASH_IN_FILENAME case PV_CSL: return (char_u *)&(curbuf->b_p_csl); #endif case PV_CFU: return (char_u *)&(curbuf->b_p_cfu); case PV_OFU: return (char_u *)&(curbuf->b_p_ofu); case PV_EOL: return (char_u *)&(curbuf->b_p_eol); case PV_FIXEOL: return (char_u *)&(curbuf->b_p_fixeol); case PV_ET: return (char_u *)&(curbuf->b_p_et); case PV_FENC: return (char_u *)&(curbuf->b_p_fenc); case PV_FF: return (char_u *)&(curbuf->b_p_ff); case PV_FT: return (char_u *)&(curbuf->b_p_ft); case PV_FO: return (char_u *)&(curbuf->b_p_fo); case PV_FLP: return (char_u *)&(curbuf->b_p_flp); case PV_IMI: return (char_u *)&(curbuf->b_p_iminsert); case PV_IMS: return (char_u *)&(curbuf->b_p_imsearch); case PV_INF: return (char_u *)&(curbuf->b_p_inf); case PV_ISK: return (char_u *)&(curbuf->b_p_isk); case PV_INEX: return (char_u *)&(curbuf->b_p_inex); case PV_INDE: return (char_u *)&(curbuf->b_p_inde); case PV_INDK: return (char_u *)&(curbuf->b_p_indk); case PV_FEX: return (char_u *)&(curbuf->b_p_fex); case PV_LISP: return (char_u *)&(curbuf->b_p_lisp); case PV_ML: return (char_u *)&(curbuf->b_p_ml); case PV_MPS: return (char_u *)&(curbuf->b_p_mps); case PV_MA: return (char_u *)&(curbuf->b_p_ma); case PV_MOD: return (char_u *)&(curbuf->b_changed); case PV_NF: return (char_u *)&(curbuf->b_p_nf); case PV_PI: return (char_u *)&(curbuf->b_p_pi); case PV_QE: return (char_u *)&(curbuf->b_p_qe); case PV_RO: return (char_u *)&(curbuf->b_p_ro); case PV_SCBK: return (char_u *)&(curbuf->b_p_scbk); case PV_SI: return (char_u *)&(curbuf->b_p_si); case PV_STS: return (char_u *)&(curbuf->b_p_sts); case PV_SUA: return (char_u *)&(curbuf->b_p_sua); case PV_SWF: return (char_u *)&(curbuf->b_p_swf); case PV_SMC: return (char_u *)&(curbuf->b_p_smc); case PV_SYN: return (char_u *)&(curbuf->b_p_syn); case PV_SPC: return (char_u *)&(curwin->w_s->b_p_spc); case PV_SPF: return (char_u *)&(curwin->w_s->b_p_spf); case PV_SPL: return (char_u *)&(curwin->w_s->b_p_spl); case PV_SPO: return (char_u *)&(curwin->w_s->b_p_spo); case PV_SW: return (char_u *)&(curbuf->b_p_sw); case PV_TFU: return (char_u *)&(curbuf->b_p_tfu); case PV_TS: return (char_u *)&(curbuf->b_p_ts); case PV_TW: return (char_u *)&(curbuf->b_p_tw); case PV_UDF: return (char_u *)&(curbuf->b_p_udf); case PV_WM: return (char_u *)&(curbuf->b_p_wm); case PV_VSTS: return (char_u *)&(curbuf->b_p_vsts); case PV_VTS: return (char_u *)&(curbuf->b_p_vts); case PV_KMAP: return (char_u *)&(curbuf->b_p_keymap); case PV_SCL: return (char_u *)&(curwin->w_p_scl); case PV_WINHL: return (char_u *)&(curwin->w_p_winhl); case PV_WINBL: return (char_u *)&(curwin->w_p_winbl); default: iemsg(_("E356: get_varp ERROR")); } // always return a valid pointer to avoid a crash! return (char_u *)&(curbuf->b_p_wm); } /// Get the value of 'equalprg', either the buffer-local one or the global one. char_u *get_equalprg(void) { if (*curbuf->b_p_ep == NUL) { return p_ep; } return (char_u *)curbuf->b_p_ep; } /// Copy options from one window to another. /// Used when splitting a window. void win_copy_options(win_T *wp_from, win_T *wp_to) { copy_winopt(&wp_from->w_onebuf_opt, &wp_to->w_onebuf_opt); copy_winopt(&wp_from->w_allbuf_opt, &wp_to->w_allbuf_opt); didset_window_options(wp_to, true); } static char *copy_option_val(const char *val) { if (val == empty_option) { return empty_option; // no need to allocate memory } return xstrdup(val); } /// Copy the options from one winopt_T to another. /// Doesn't free the old option values in "to", use clear_winopt() for that. /// The 'scroll' option is not copied, because it depends on the window height. /// The 'previewwindow' option is reset, there can be only one preview window. void copy_winopt(winopt_T *from, winopt_T *to) { to->wo_arab = from->wo_arab; to->wo_list = from->wo_list; to->wo_lcs = copy_option_val(from->wo_lcs); to->wo_fcs = copy_option_val(from->wo_fcs); to->wo_nu = from->wo_nu; to->wo_rnu = from->wo_rnu; to->wo_ve = copy_option_val(from->wo_ve); to->wo_ve_flags = from->wo_ve_flags; to->wo_nuw = from->wo_nuw; to->wo_rl = from->wo_rl; to->wo_rlc = copy_option_val(from->wo_rlc); to->wo_sbr = copy_option_val(from->wo_sbr); to->wo_stl = copy_option_val(from->wo_stl); to->wo_wbr = copy_option_val(from->wo_wbr); to->wo_wrap = from->wo_wrap; to->wo_wrap_save = from->wo_wrap_save; to->wo_lbr = from->wo_lbr; to->wo_bri = from->wo_bri; to->wo_briopt = copy_option_val(from->wo_briopt); to->wo_scb = from->wo_scb; to->wo_scb_save = from->wo_scb_save; to->wo_crb = from->wo_crb; to->wo_crb_save = from->wo_crb_save; to->wo_spell = from->wo_spell; to->wo_cuc = from->wo_cuc; to->wo_cul = from->wo_cul; to->wo_culopt = copy_option_val(from->wo_culopt); to->wo_cc = copy_option_val(from->wo_cc); to->wo_diff = from->wo_diff; to->wo_diff_saved = from->wo_diff_saved; to->wo_cocu = copy_option_val(from->wo_cocu); to->wo_cole = from->wo_cole; to->wo_fdc = copy_option_val(from->wo_fdc); to->wo_fdc_save = from->wo_diff_saved ? xstrdup(from->wo_fdc_save) : empty_option; to->wo_fen = from->wo_fen; to->wo_fen_save = from->wo_fen_save; to->wo_fdi = copy_option_val(from->wo_fdi); to->wo_fml = from->wo_fml; to->wo_fdl = from->wo_fdl; to->wo_fdl_save = from->wo_fdl_save; to->wo_fdm = copy_option_val(from->wo_fdm); to->wo_fdm_save = from->wo_diff_saved ? xstrdup(from->wo_fdm_save) : empty_option; to->wo_fdn = from->wo_fdn; to->wo_fde = copy_option_val(from->wo_fde); to->wo_fdt = copy_option_val(from->wo_fdt); to->wo_fmr = copy_option_val(from->wo_fmr); to->wo_scl = copy_option_val(from->wo_scl); to->wo_winhl = copy_option_val(from->wo_winhl); to->wo_winbl = from->wo_winbl; // Copy the script context so that we know were the value was last set. memmove(to->wo_script_ctx, from->wo_script_ctx, sizeof(to->wo_script_ctx)); check_winopt(to); // don't want NULL pointers } /// Check string options in a window for a NULL value. void check_win_options(win_T *win) { check_winopt(&win->w_onebuf_opt); check_winopt(&win->w_allbuf_opt); } /// Check for NULL pointers in a winopt_T and replace them with empty_option. static void check_winopt(winopt_T *wop) { check_string_option(&wop->wo_fdc); check_string_option(&wop->wo_fdc_save); check_string_option(&wop->wo_fdi); check_string_option(&wop->wo_fdm); check_string_option(&wop->wo_fdm_save); check_string_option(&wop->wo_fde); check_string_option(&wop->wo_fdt); check_string_option(&wop->wo_fmr); check_string_option(&wop->wo_scl); check_string_option(&wop->wo_rlc); check_string_option(&wop->wo_sbr); check_string_option(&wop->wo_stl); check_string_option(&wop->wo_culopt); check_string_option(&wop->wo_cc); check_string_option(&wop->wo_cocu); check_string_option(&wop->wo_briopt); check_string_option(&wop->wo_winhl); check_string_option(&wop->wo_lcs); check_string_option(&wop->wo_fcs); check_string_option(&wop->wo_ve); check_string_option(&wop->wo_wbr); } /// Free the allocated memory inside a winopt_T. void clear_winopt(winopt_T *wop) { clear_string_option(&wop->wo_fdc); clear_string_option(&wop->wo_fdc_save); clear_string_option(&wop->wo_fdi); clear_string_option(&wop->wo_fdm); clear_string_option(&wop->wo_fdm_save); clear_string_option(&wop->wo_fde); clear_string_option(&wop->wo_fdt); clear_string_option(&wop->wo_fmr); clear_string_option(&wop->wo_scl); clear_string_option(&wop->wo_rlc); clear_string_option(&wop->wo_sbr); clear_string_option(&wop->wo_stl); clear_string_option(&wop->wo_culopt); clear_string_option(&wop->wo_cc); clear_string_option(&wop->wo_cocu); clear_string_option(&wop->wo_briopt); clear_string_option(&wop->wo_winhl); clear_string_option(&wop->wo_lcs); clear_string_option(&wop->wo_fcs); clear_string_option(&wop->wo_ve); clear_string_option(&wop->wo_wbr); } void didset_window_options(win_T *wp, bool valid_cursor) { check_colorcolumn(wp); briopt_check(wp); fill_culopt_flags(NULL, wp); set_chars_option(wp, &wp->w_p_fcs, true); set_chars_option(wp, &wp->w_p_lcs, true); parse_winhl_opt(wp); // sets w_hl_needs_update also for w_p_winbl check_blending(wp); set_winbar_win(wp, false, valid_cursor); wp->w_grid_alloc.blending = wp->w_p_winbl > 0; } /// Index into the options table for a buffer-local option enum. static int buf_opt_idx[BV_COUNT]; #define COPY_OPT_SCTX(buf, bv) buf->b_p_script_ctx[bv] = options[buf_opt_idx[bv]].last_set /// Initialize buf_opt_idx[] if not done already. static void init_buf_opt_idx(void) { static int did_init_buf_opt_idx = false; if (did_init_buf_opt_idx) { return; } did_init_buf_opt_idx = true; for (int i = 0; options[i].fullname != NULL; i++) { if (options[i].indir & PV_BUF) { buf_opt_idx[options[i].indir & PV_MASK] = i; } } } /// Copy global option values to local options for one buffer. /// Used when creating a new buffer and sometimes when entering a buffer. /// flags: /// BCO_ENTER We will enter the buffer "buf". /// BCO_ALWAYS Always copy the options, but only set b_p_initialized when /// appropriate. /// BCO_NOHELP Don't copy the values to a help buffer. void buf_copy_options(buf_T *buf, int flags) { int should_copy = true; char_u *save_p_isk = NULL; // init for GCC int dont_do_help; int did_isk = false; // Skip this when the option defaults have not been set yet. Happens when // main() allocates the first buffer. if (p_cpo != NULL) { // // Always copy when entering and 'cpo' contains 'S'. // Don't copy when already initialized. // Don't copy when 'cpo' contains 's' and not entering. // 'S' BCO_ENTER initialized 's' should_copy // yes yes X X true // yes no yes X false // no X yes X false // X no no yes false // X no no no true // no yes no X true /// if ((vim_strchr(p_cpo, CPO_BUFOPTGLOB) == NULL || !(flags & BCO_ENTER)) && (buf->b_p_initialized || (!(flags & BCO_ENTER) && vim_strchr(p_cpo, CPO_BUFOPT) != NULL))) { should_copy = false; } if (should_copy || (flags & BCO_ALWAYS)) { CLEAR_FIELD(buf->b_p_script_ctx); init_buf_opt_idx(); // Don't copy the options specific to a help buffer when // BCO_NOHELP is given or the options were initialized already // (jumping back to a help file with CTRL-T or CTRL-O) dont_do_help = ((flags & BCO_NOHELP) && buf->b_help) || buf->b_p_initialized; if (dont_do_help) { // don't free b_p_isk save_p_isk = (char_u *)buf->b_p_isk; buf->b_p_isk = NULL; } // Always free the allocated strings. If not already initialized, // reset 'readonly' and copy 'fileformat'. if (!buf->b_p_initialized) { free_buf_options(buf, true); buf->b_p_ro = false; // don't copy readonly buf->b_p_fenc = xstrdup(p_fenc); switch (*p_ffs) { case 'm': buf->b_p_ff = xstrdup(FF_MAC); break; case 'd': buf->b_p_ff = xstrdup(FF_DOS); break; case 'u': buf->b_p_ff = xstrdup(FF_UNIX); break; default: buf->b_p_ff = xstrdup(p_ff); break; } buf->b_p_bh = empty_option; buf->b_p_bt = empty_option; } else { free_buf_options(buf, false); } buf->b_p_ai = p_ai; COPY_OPT_SCTX(buf, BV_AI); buf->b_p_ai_nopaste = p_ai_nopaste; buf->b_p_sw = p_sw; COPY_OPT_SCTX(buf, BV_SW); buf->b_p_scbk = p_scbk; COPY_OPT_SCTX(buf, BV_SCBK); buf->b_p_tw = p_tw; COPY_OPT_SCTX(buf, BV_TW); buf->b_p_tw_nopaste = p_tw_nopaste; buf->b_p_tw_nobin = p_tw_nobin; buf->b_p_wm = p_wm; COPY_OPT_SCTX(buf, BV_WM); buf->b_p_wm_nopaste = p_wm_nopaste; buf->b_p_wm_nobin = p_wm_nobin; buf->b_p_bin = p_bin; COPY_OPT_SCTX(buf, BV_BIN); buf->b_p_bomb = p_bomb; COPY_OPT_SCTX(buf, BV_BOMB); buf->b_p_et = p_et; COPY_OPT_SCTX(buf, BV_ET); buf->b_p_fixeol = p_fixeol; COPY_OPT_SCTX(buf, BV_FIXEOL); buf->b_p_et_nobin = p_et_nobin; buf->b_p_et_nopaste = p_et_nopaste; buf->b_p_ml = p_ml; COPY_OPT_SCTX(buf, BV_ML); buf->b_p_ml_nobin = p_ml_nobin; buf->b_p_inf = p_inf; COPY_OPT_SCTX(buf, BV_INF); if (cmdmod.cmod_flags & CMOD_NOSWAPFILE) { buf->b_p_swf = false; } else { buf->b_p_swf = p_swf; COPY_OPT_SCTX(buf, BV_SWF); } buf->b_p_cpt = xstrdup(p_cpt); COPY_OPT_SCTX(buf, BV_CPT); #ifdef BACKSLASH_IN_FILENAME buf->b_p_csl = xstrdup(p_csl); COPY_OPT_SCTX(buf, BV_CSL); #endif buf->b_p_cfu = xstrdup(p_cfu); COPY_OPT_SCTX(buf, BV_CFU); buf->b_p_ofu = xstrdup(p_ofu); COPY_OPT_SCTX(buf, BV_OFU); buf->b_p_tfu = xstrdup(p_tfu); COPY_OPT_SCTX(buf, BV_TFU); buf->b_p_sts = p_sts; COPY_OPT_SCTX(buf, BV_STS); buf->b_p_sts_nopaste = p_sts_nopaste; buf->b_p_vsts = xstrdup(p_vsts); COPY_OPT_SCTX(buf, BV_VSTS); if (p_vsts && p_vsts != empty_option) { (void)tabstop_set(p_vsts, &buf->b_p_vsts_array); } else { buf->b_p_vsts_array = NULL; } buf->b_p_vsts_nopaste = p_vsts_nopaste ? xstrdup(p_vsts_nopaste) : NULL; buf->b_p_com = xstrdup(p_com); COPY_OPT_SCTX(buf, BV_COM); buf->b_p_cms = xstrdup(p_cms); COPY_OPT_SCTX(buf, BV_CMS); buf->b_p_fo = xstrdup(p_fo); COPY_OPT_SCTX(buf, BV_FO); buf->b_p_flp = xstrdup(p_flp); COPY_OPT_SCTX(buf, BV_FLP); buf->b_p_nf = xstrdup(p_nf); COPY_OPT_SCTX(buf, BV_NF); buf->b_p_mps = xstrdup(p_mps); COPY_OPT_SCTX(buf, BV_MPS); buf->b_p_si = p_si; COPY_OPT_SCTX(buf, BV_SI); buf->b_p_channel = 0; buf->b_p_ci = p_ci; COPY_OPT_SCTX(buf, BV_CI); buf->b_p_cin = p_cin; COPY_OPT_SCTX(buf, BV_CIN); buf->b_p_cink = xstrdup(p_cink); COPY_OPT_SCTX(buf, BV_CINK); buf->b_p_cino = xstrdup(p_cino); COPY_OPT_SCTX(buf, BV_CINO); buf->b_p_cinsd = xstrdup(p_cinsd); COPY_OPT_SCTX(buf, BV_CINSD); // Don't copy 'filetype', it must be detected buf->b_p_ft = empty_option; buf->b_p_pi = p_pi; COPY_OPT_SCTX(buf, BV_PI); buf->b_p_cinw = xstrdup(p_cinw); COPY_OPT_SCTX(buf, BV_CINW); buf->b_p_lisp = p_lisp; COPY_OPT_SCTX(buf, BV_LISP); // Don't copy 'syntax', it must be set buf->b_p_syn = empty_option; buf->b_p_smc = p_smc; COPY_OPT_SCTX(buf, BV_SMC); buf->b_s.b_syn_isk = empty_option; buf->b_s.b_p_spc = xstrdup(p_spc); COPY_OPT_SCTX(buf, BV_SPC); (void)compile_cap_prog(&buf->b_s); buf->b_s.b_p_spf = xstrdup(p_spf); COPY_OPT_SCTX(buf, BV_SPF); buf->b_s.b_p_spl = xstrdup(p_spl); COPY_OPT_SCTX(buf, BV_SPL); buf->b_s.b_p_spo = xstrdup(p_spo); COPY_OPT_SCTX(buf, BV_SPO); buf->b_p_inde = xstrdup(p_inde); COPY_OPT_SCTX(buf, BV_INDE); buf->b_p_indk = xstrdup(p_indk); COPY_OPT_SCTX(buf, BV_INDK); buf->b_p_fp = empty_option; buf->b_p_fex = xstrdup(p_fex); COPY_OPT_SCTX(buf, BV_FEX); buf->b_p_sua = xstrdup(p_sua); COPY_OPT_SCTX(buf, BV_SUA); buf->b_p_keymap = xstrdup(p_keymap); COPY_OPT_SCTX(buf, BV_KMAP); buf->b_kmap_state |= KEYMAP_INIT; // This isn't really an option, but copying the langmap and IME // state from the current buffer is better than resetting it. buf->b_p_iminsert = p_iminsert; COPY_OPT_SCTX(buf, BV_IMI); buf->b_p_imsearch = p_imsearch; COPY_OPT_SCTX(buf, BV_IMS); // options that are normally global but also have a local value // are not copied, start using the global value buf->b_p_ar = -1; buf->b_p_ul = NO_LOCAL_UNDOLEVEL; buf->b_p_bkc = empty_option; buf->b_bkc_flags = 0; buf->b_p_gp = empty_option; buf->b_p_mp = empty_option; buf->b_p_efm = empty_option; buf->b_p_ep = empty_option; buf->b_p_kp = empty_option; buf->b_p_path = empty_option; buf->b_p_tags = empty_option; buf->b_p_tc = empty_option; buf->b_tc_flags = 0; buf->b_p_def = empty_option; buf->b_p_inc = empty_option; buf->b_p_inex = xstrdup(p_inex); COPY_OPT_SCTX(buf, BV_INEX); buf->b_p_dict = empty_option; buf->b_p_tsr = empty_option; buf->b_p_tsrfu = empty_option; buf->b_p_qe = xstrdup(p_qe); COPY_OPT_SCTX(buf, BV_QE); buf->b_p_udf = p_udf; COPY_OPT_SCTX(buf, BV_UDF); buf->b_p_lw = empty_option; buf->b_p_menc = empty_option; // Don't copy the options set by ex_help(), use the saved values, // when going from a help buffer to a non-help buffer. // Don't touch these at all when BCO_NOHELP is used and going from // or to a help buffer. if (dont_do_help) { buf->b_p_isk = (char *)save_p_isk; if (p_vts && p_vts != empty_option && !buf->b_p_vts_array) { (void)tabstop_set(p_vts, &buf->b_p_vts_array); } else { buf->b_p_vts_array = NULL; } } else { buf->b_p_isk = xstrdup(p_isk); COPY_OPT_SCTX(buf, BV_ISK); did_isk = true; buf->b_p_ts = p_ts; COPY_OPT_SCTX(buf, BV_TS); buf->b_p_vts = xstrdup(p_vts); COPY_OPT_SCTX(buf, BV_VTS); if (p_vts && p_vts != empty_option && !buf->b_p_vts_array) { (void)tabstop_set(p_vts, &buf->b_p_vts_array); } else { buf->b_p_vts_array = NULL; } buf->b_help = false; if (buf->b_p_bt[0] == 'h') { clear_string_option(&buf->b_p_bt); } buf->b_p_ma = p_ma; COPY_OPT_SCTX(buf, BV_MA); } } // When the options should be copied (ignoring BCO_ALWAYS), set the // flag that indicates that the options have been initialized. if (should_copy) { buf->b_p_initialized = true; } } check_buf_options(buf); // make sure we don't have NULLs if (did_isk) { (void)buf_init_chartab(buf, false); } } /// Reset the 'modifiable' option and its default value. void reset_modifiable(void) { int opt_idx; curbuf->b_p_ma = false; p_ma = false; opt_idx = findoption("ma"); if (opt_idx >= 0) { options[opt_idx].def_val = false; } } /// Set the global value for 'iminsert' to the local value. void set_iminsert_global(void) { p_iminsert = curbuf->b_p_iminsert; } /// Set the global value for 'imsearch' to the local value. void set_imsearch_global(void) { p_imsearch = curbuf->b_p_imsearch; } static int expand_option_idx = -1; static char_u expand_option_name[5] = { 't', '_', NUL, NUL, NUL }; static int expand_option_flags = 0; /// @param opt_flags OPT_GLOBAL and/or OPT_LOCAL void set_context_in_set_cmd(expand_T *xp, char_u *arg, int opt_flags) { char_u nextchar; uint32_t flags = 0; // init for GCC int opt_idx = 0; // init for GCC char_u *p; char_u *s; int is_term_option = false; int key; expand_option_flags = opt_flags; xp->xp_context = EXPAND_SETTINGS; if (*arg == NUL) { xp->xp_pattern = (char *)arg; return; } p = arg + STRLEN(arg) - 1; if (*p == ' ' && *(p - 1) != '\\') { xp->xp_pattern = (char *)p + 1; return; } while (p > arg) { s = p; // count number of backslashes before ' ' or ',' if (*p == ' ' || *p == ',') { while (s > arg && *(s - 1) == '\\') { s--; } } // break at a space with an even number of backslashes if (*p == ' ' && ((p - s) & 1) == 0) { p++; break; } p--; } if (STRNCMP(p, "no", 2) == 0) { xp->xp_context = EXPAND_BOOL_SETTINGS; p += 2; } if (STRNCMP(p, "inv", 3) == 0) { xp->xp_context = EXPAND_BOOL_SETTINGS; p += 3; } xp->xp_pattern = (char *)p; arg = p; if (*arg == '<') { while (*p != '>') { if (*p++ == NUL) { // expand terminal option name return; } } key = get_special_key_code(arg + 1); if (key == 0) { // unknown name xp->xp_context = EXPAND_NOTHING; return; } nextchar = *++p; is_term_option = true; expand_option_name[2] = (char_u)KEY2TERMCAP0(key); expand_option_name[3] = KEY2TERMCAP1(key); } else { if (p[0] == 't' && p[1] == '_') { p += 2; if (*p != NUL) { p++; } if (*p == NUL) { return; // expand option name } nextchar = *++p; is_term_option = true; expand_option_name[2] = p[-2]; expand_option_name[3] = p[-1]; } else { // Allow * wildcard. while (ASCII_ISALNUM(*p) || *p == '_' || *p == '*') { p++; } if (*p == NUL) { return; } nextchar = *p; opt_idx = findoption_len((const char *)arg, (size_t)(p - arg)); if (opt_idx == -1 || options[opt_idx].var == NULL) { xp->xp_context = EXPAND_NOTHING; return; } flags = options[opt_idx].flags; if (flags & P_BOOL) { xp->xp_context = EXPAND_NOTHING; return; } } } // handle "-=" and "+=" if ((nextchar == '-' || nextchar == '+' || nextchar == '^') && p[1] == '=') { p++; nextchar = '='; } if ((nextchar != '=' && nextchar != ':') || xp->xp_context == EXPAND_BOOL_SETTINGS) { xp->xp_context = EXPAND_UNSUCCESSFUL; return; } if (p[1] == NUL) { xp->xp_context = EXPAND_OLD_SETTING; if (is_term_option) { expand_option_idx = -1; } else { expand_option_idx = opt_idx; } xp->xp_pattern = (char *)p + 1; return; } xp->xp_context = EXPAND_NOTHING; if (is_term_option || (flags & P_NUM)) { return; } xp->xp_pattern = (char *)p + 1; if (flags & P_EXPAND) { p = options[opt_idx].var; if (p == (char_u *)&p_bdir || p == (char_u *)&p_dir || p == (char_u *)&p_path || p == (char_u *)&p_pp || p == (char_u *)&p_rtp || p == (char_u *)&p_cdpath || p == (char_u *)&p_vdir) { xp->xp_context = EXPAND_DIRECTORIES; if (p == (char_u *)&p_path || p == (char_u *)&p_cdpath) { xp->xp_backslash = XP_BS_THREE; } else { xp->xp_backslash = XP_BS_ONE; } } else if (p == (char_u *)&p_ft) { xp->xp_context = EXPAND_FILETYPE; } else { xp->xp_context = EXPAND_FILES; // for 'tags' need three backslashes for a space if (p == (char_u *)&p_tags) { xp->xp_backslash = XP_BS_THREE; } else { xp->xp_backslash = XP_BS_ONE; } } } // For an option that is a list of file names, find the start of the // last file name. for (p = arg + STRLEN(arg) - 1; p > (char_u *)xp->xp_pattern; p--) { // count number of backslashes before ' ' or ',' if (*p == ' ' || *p == ',') { s = p; while (s > (char_u *)xp->xp_pattern && *(s - 1) == '\\') { s--; } if ((*p == ' ' && (xp->xp_backslash == XP_BS_THREE && (p - s) < 3)) || (*p == ',' && (flags & P_COMMA) && ((p - s) & 1) == 0)) { xp->xp_pattern = (char *)p + 1; break; } } // for 'spellsuggest' start at "file:" if (options[opt_idx].var == (char_u *)&p_sps && STRNCMP(p, "file:", 5) == 0) { xp->xp_pattern = (char *)p + 5; break; } } } int ExpandSettings(expand_T *xp, regmatch_T *regmatch, int *num_file, char ***file) { int num_normal = 0; // Nr of matching non-term-code settings int match; int count = 0; char *str; int loop; static char *(names[]) = { "all" }; int ic = regmatch->rm_ic; // remember the ignore-case flag // do this loop twice: // loop == 0: count the number of matching options // loop == 1: copy the matching options into allocated memory for (loop = 0; loop <= 1; loop++) { regmatch->rm_ic = ic; if (xp->xp_context != EXPAND_BOOL_SETTINGS) { for (match = 0; match < (int)ARRAY_SIZE(names); match++) { if (vim_regexec(regmatch, names[match], (colnr_T)0)) { if (loop == 0) { num_normal++; } else { (*file)[count++] = xstrdup(names[match]); } } } } for (size_t opt_idx = 0; (str = options[opt_idx].fullname) != NULL; opt_idx++) { if (options[opt_idx].var == NULL) { continue; } if (xp->xp_context == EXPAND_BOOL_SETTINGS && !(options[opt_idx].flags & P_BOOL)) { continue; } match = false; if (vim_regexec(regmatch, str, (colnr_T)0) || (options[opt_idx].shortname != NULL && vim_regexec(regmatch, options[opt_idx].shortname, (colnr_T)0))) { match = true; } if (match) { if (loop == 0) { num_normal++; } else { (*file)[count++] = xstrdup(str); } } } if (loop == 0) { if (num_normal > 0) { *num_file = num_normal; } else { return OK; } *file = xmalloc((size_t)(*num_file) * sizeof(char *)); } } return OK; } void ExpandOldSetting(int *num_file, char ***file) { char_u *var = NULL; *num_file = 0; *file = xmalloc(sizeof(char_u *)); // For a terminal key code expand_option_idx is < 0. if (expand_option_idx < 0) { expand_option_idx = findoption((const char *)expand_option_name); } if (expand_option_idx >= 0) { // Put string of option value in NameBuff. option_value2string(&options[expand_option_idx], expand_option_flags); var = (char_u *)NameBuff; } else { var = (char_u *)""; } // A backslash is required before some characters. This is the reverse of // what happens in do_set(). char_u *buf = vim_strsave_escaped(var, escape_chars); #ifdef BACKSLASH_IN_FILENAME // For MS-Windows et al. we don't double backslashes at the start and // before a file name character. for (var = buf; *var != NUL; MB_PTR_ADV(var)) { if (var[0] == '\\' && var[1] == '\\' && expand_option_idx >= 0 && (options[expand_option_idx].flags & P_EXPAND) && vim_isfilec(var[2]) && (var[2] != '\\' || (var == buf && var[4] != '\\'))) { STRMOVE(var, var + 1); } } #endif *file[0] = (char *)buf; *num_file = 1; } /// Get the value for the numeric or string option///opp in a nice format into /// NameBuff[]. Must not be called with a hidden option! /// /// @param opt_flags OPT_GLOBAL and/or OPT_LOCAL static void option_value2string(vimoption_T *opp, int opt_flags) { char_u *varp = (char_u *)get_varp_scope(opp, opt_flags); if (opp->flags & P_NUM) { long wc = 0; if (wc_use_keyname(varp, &wc)) { STRLCPY(NameBuff, get_special_key_name((int)wc, 0), sizeof(NameBuff)); } else if (wc != 0) { STRLCPY(NameBuff, transchar((int)wc), sizeof(NameBuff)); } else { snprintf((char *)NameBuff, sizeof(NameBuff), "%" PRId64, (int64_t)*(long *)varp); } } else { // P_STRING varp = *(char_u **)(varp); if (varp == NULL) { // Just in case. NameBuff[0] = NUL; } else if (opp->flags & P_EXPAND) { home_replace(NULL, (char *)varp, (char *)NameBuff, MAXPATHL, false); // Translate 'pastetoggle' into special key names. } else if ((char **)opp->var == &p_pt) { str2specialbuf((const char *)p_pt, (char *)NameBuff, MAXPATHL); } else { STRLCPY(NameBuff, varp, MAXPATHL); } } } /// Return true if "varp" points to 'wildchar' or 'wildcharm' and it can be /// printed as a keyname. /// "*wcp" is set to the value of the option if it's 'wildchar' or 'wildcharm'. static int wc_use_keyname(char_u *varp, long *wcp) { if (((long *)varp == &p_wc) || ((long *)varp == &p_wcm)) { *wcp = *(long *)varp; if (IS_SPECIAL(*wcp) || find_special_key_in_table((int)(*wcp)) >= 0) { return true; } } return false; } /// @returns true if "x" is present in 'shortmess' option, or /// 'shortmess' contains 'a' and "x" is present in SHM_ALL_ABBREVIATIONS. bool shortmess(int x) { return (p_shm != NULL && (vim_strchr(p_shm, x) != NULL || (vim_strchr(p_shm, 'a') != NULL && vim_strchr(SHM_ALL_ABBREVIATIONS, x) != NULL))); } /// paste_option_changed() - Called after p_paste was set or reset. static void paste_option_changed(void) { static int old_p_paste = false; static int save_sm = 0; static int save_sta = 0; static int save_ru = 0; static int save_ri = 0; static int save_hkmap = 0; if (p_paste) { // Paste switched from off to on. // Save the current values, so they can be restored later. if (!old_p_paste) { // save options for each buffer FOR_ALL_BUFFERS(buf) { buf->b_p_tw_nopaste = buf->b_p_tw; buf->b_p_wm_nopaste = buf->b_p_wm; buf->b_p_sts_nopaste = buf->b_p_sts; buf->b_p_ai_nopaste = buf->b_p_ai; buf->b_p_et_nopaste = buf->b_p_et; if (buf->b_p_vsts_nopaste) { xfree(buf->b_p_vsts_nopaste); } buf->b_p_vsts_nopaste = buf->b_p_vsts && buf->b_p_vsts != empty_option ? xstrdup(buf->b_p_vsts) : NULL; } // save global options save_sm = p_sm; save_sta = p_sta; save_ru = p_ru; save_ri = p_ri; save_hkmap = p_hkmap; // save global values for local buffer options p_ai_nopaste = p_ai; p_et_nopaste = p_et; p_sts_nopaste = p_sts; p_tw_nopaste = p_tw; p_wm_nopaste = p_wm; if (p_vsts_nopaste) { xfree(p_vsts_nopaste); } p_vsts_nopaste = p_vsts && p_vsts != empty_option ? xstrdup(p_vsts) : NULL; } // Always set the option values, also when 'paste' is set when it is // already on. // set options for each buffer FOR_ALL_BUFFERS(buf) { buf->b_p_tw = 0; // textwidth is 0 buf->b_p_wm = 0; // wrapmargin is 0 buf->b_p_sts = 0; // softtabstop is 0 buf->b_p_ai = 0; // no auto-indent buf->b_p_et = 0; // no expandtab if (buf->b_p_vsts) { free_string_option(buf->b_p_vsts); } buf->b_p_vsts = empty_option; XFREE_CLEAR(buf->b_p_vsts_array); } // set global options p_sm = 0; // no showmatch p_sta = 0; // no smarttab if (p_ru) { status_redraw_all(); // redraw to remove the ruler } p_ru = 0; // no ruler p_ri = 0; // no reverse insert p_hkmap = 0; // no Hebrew keyboard // set global values for local buffer options p_tw = 0; p_wm = 0; p_sts = 0; p_ai = 0; if (p_vsts) { free_string_option(p_vsts); } p_vsts = empty_option; } else if (old_p_paste) { // Paste switched from on to off: Restore saved values. // restore options for each buffer FOR_ALL_BUFFERS(buf) { buf->b_p_tw = buf->b_p_tw_nopaste; buf->b_p_wm = buf->b_p_wm_nopaste; buf->b_p_sts = buf->b_p_sts_nopaste; buf->b_p_ai = buf->b_p_ai_nopaste; buf->b_p_et = buf->b_p_et_nopaste; if (buf->b_p_vsts) { free_string_option(buf->b_p_vsts); } buf->b_p_vsts = buf->b_p_vsts_nopaste ? xstrdup(buf->b_p_vsts_nopaste) : empty_option; xfree(buf->b_p_vsts_array); if (buf->b_p_vsts && buf->b_p_vsts != empty_option) { (void)tabstop_set(buf->b_p_vsts, &buf->b_p_vsts_array); } else { buf->b_p_vsts_array = NULL; } } // restore global options p_sm = save_sm; p_sta = save_sta; if (p_ru != save_ru) { status_redraw_all(); // redraw to draw the ruler } p_ru = save_ru; p_ri = save_ri; p_hkmap = save_hkmap; // set global values for local buffer options p_ai = p_ai_nopaste; p_et = p_et_nopaste; p_sts = p_sts_nopaste; p_tw = p_tw_nopaste; p_wm = p_wm_nopaste; if (p_vsts) { free_string_option(p_vsts); } p_vsts = p_vsts_nopaste ? xstrdup(p_vsts_nopaste) : empty_option; } old_p_paste = p_paste; } /// vimrc_found() - Called when a vimrc or "VIMINIT" has been found. /// /// Set the values for options that didn't get set yet to the defaults. /// When "fname" is not NULL, use it to set $"envname" when it wasn't set yet. void vimrc_found(char *fname, char *envname) { if (fname != NULL && envname != NULL) { char *p = vim_getenv(envname); if (p == NULL) { // Set $MYVIMRC to the first vimrc file found. p = FullName_save(fname, false); if (p != NULL) { os_setenv(envname, p, 1); xfree(p); } } else { xfree(p); } } } /// Check whether global option has been set /// /// @param[in] name Option name. /// /// @return True if it was set. bool option_was_set(const char *name) { int idx; idx = findoption(name); if (idx < 0) { // Unknown option. return false; } else if (options[idx].flags & P_WAS_SET) { return true; } return false; } /// Reset the flag indicating option "name" was set. /// /// @param[in] name Option name. void reset_option_was_set(const char *name) { const int idx = findoption(name); if (idx >= 0) { options[idx].flags &= ~P_WAS_SET; } } /// fill_breakat_flags() -- called when 'breakat' changes value. void fill_breakat_flags(void) { char_u *p; int i; for (i = 0; i < 256; i++) { breakat_flags[i] = false; } if (p_breakat != NULL) { for (p = (char_u *)p_breakat; *p; p++) { breakat_flags[*p] = true; } } } /// fill_culopt_flags() -- called when 'culopt' changes value int fill_culopt_flags(char *val, win_T *wp) { char *p; char_u culopt_flags_new = 0; if (val == NULL) { p = wp->w_p_culopt; } else { p = val; } while (*p != NUL) { if (STRNCMP(p, "line", 4) == 0) { p += 4; culopt_flags_new |= CULOPT_LINE; } else if (STRNCMP(p, "both", 4) == 0) { p += 4; culopt_flags_new |= CULOPT_LINE | CULOPT_NBR; } else if (STRNCMP(p, "number", 6) == 0) { p += 6; culopt_flags_new |= CULOPT_NBR; } else if (STRNCMP(p, "screenline", 10) == 0) { p += 10; culopt_flags_new |= CULOPT_SCRLINE; } if (*p != ',' && *p != NUL) { return FAIL; } if (*p == ',') { p++; } } // Can't have both "line" and "screenline". if ((culopt_flags_new & CULOPT_LINE) && (culopt_flags_new & CULOPT_SCRLINE)) { return FAIL; } wp->w_p_culopt_flags = culopt_flags_new; return OK; } /// Set the callback function value for an option that accepts a function name, /// lambda, et al. (e.g. 'operatorfunc', 'tagfunc', etc.) /// @return OK if the option is successfully set to a function, otherwise FAIL int option_set_callback_func(char *optval, Callback *optcb) { if (optval == NULL || *optval == NUL) { callback_free(optcb); return OK; } typval_T *tv; if (*optval == '{' || (STRNCMP(optval, "function(", 9) == 0) || (STRNCMP(optval, "funcref(", 8) == 0)) { // Lambda expression or a funcref tv = eval_expr(optval); if (tv == NULL) { return FAIL; } } else { // treat everything else as a function name string tv = xcalloc(1, sizeof(*tv)); tv->v_type = VAR_STRING; tv->vval.v_string = xstrdup(optval); } Callback cb; if (!callback_from_typval(&cb, tv)) { tv_free(tv); return FAIL; } callback_free(optcb); *optcb = cb; tv_free(tv); return OK; } /// Check if backspacing over something is allowed. /// @param what BS_INDENT, BS_EOL, BS_START, or BS_NOSTOP bool can_bs(int what) { if (what == BS_START && bt_prompt(curbuf)) { return false; } switch (*p_bs) { case '3': return true; case '2': return what != BS_NOSTOP; case '1': return what != BS_START; case '0': return false; } return vim_strchr(p_bs, what) != NULL; } /// Get the local or global value of 'backupcopy'. /// /// @param buf The buffer. unsigned int get_bkc_value(buf_T *buf) { return buf->b_bkc_flags ? buf->b_bkc_flags : bkc_flags; } /// Get the local or global value of the 'virtualedit' flags. unsigned int get_ve_flags(void) { return (curwin->w_ve_flags ? curwin->w_ve_flags : ve_flags) & ~(VE_NONE | VE_NONEU); } /// Get the local or global value of 'showbreak'. /// /// @param win If not NULL, the window to get the local option from; global /// otherwise. char_u *get_showbreak_value(win_T *const win) FUNC_ATTR_WARN_UNUSED_RESULT { if (win->w_p_sbr == NULL || *win->w_p_sbr == NUL) { return (char_u *)p_sbr; } if (strcmp(win->w_p_sbr, "NONE") == 0) { return (char_u *)empty_option; } return (char_u *)win->w_p_sbr; } /// Return the current end-of-line type: EOL_DOS, EOL_UNIX or EOL_MAC. int get_fileformat(const buf_T *buf) FUNC_ATTR_PURE FUNC_ATTR_WARN_UNUSED_RESULT FUNC_ATTR_NONNULL_ALL { int c = (unsigned char)(*buf->b_p_ff); if (buf->b_p_bin || c == 'u') { return EOL_UNIX; } if (c == 'm') { return EOL_MAC; } return EOL_DOS; } /// Like get_fileformat(), but override 'fileformat' with "p" for "++opt=val" /// argument. /// /// @param eap can be NULL! int get_fileformat_force(const buf_T *buf, const exarg_T *eap) FUNC_ATTR_NONNULL_ARG(1) { int c; if (eap != NULL && eap->force_ff != 0) { c = eap->force_ff; } else { if ((eap != NULL && eap->force_bin != 0) ? (eap->force_bin == FORCE_BIN) : buf->b_p_bin) { return EOL_UNIX; } c = (unsigned char)(*buf->b_p_ff); } if (c == 'u') { return EOL_UNIX; } if (c == 'm') { return EOL_MAC; } return EOL_DOS; } /// Return the default fileformat from 'fileformats'. int default_fileformat(void) { switch (*p_ffs) { case 'm': return EOL_MAC; case 'd': return EOL_DOS; } return EOL_UNIX; } /// Set the current end-of-line type to EOL_UNIX, EOL_MAC, or EOL_DOS. /// /// Sets 'fileformat'. /// /// @param eol_style End-of-line style. /// @param opt_flags OPT_LOCAL and/or OPT_GLOBAL void set_fileformat(int eol_style, int opt_flags) { char *p = NULL; switch (eol_style) { case EOL_UNIX: p = FF_UNIX; break; case EOL_MAC: p = FF_MAC; break; case EOL_DOS: p = FF_DOS; break; } // p is NULL if "eol_style" is EOL_UNKNOWN. if (p != NULL) { set_string_option_direct("ff", -1, p, OPT_FREE | opt_flags, 0); } // This may cause the buffer to become (un)modified. redraw_buf_status_later(curbuf); redraw_tabline = true; need_maketitle = true; // Set window title later. } /// Skip to next part of an option argument: skip space and comma char *skip_to_option_part(const char *p) { if (*p == ',') { p++; } while (*p == ' ') { p++; } return (char *)p; } /// Isolate one part of a string option separated by `sep_chars`. /// /// @param[in,out] option advanced to the next part /// @param[in,out] buf copy of the isolated part /// @param[in] maxlen length of `buf` /// @param[in] sep_chars chars that separate the option parts /// /// @return length of `*option` size_t copy_option_part(char **option, char *buf, size_t maxlen, char *sep_chars) { size_t len = 0; char *p = *option; // skip '.' at start of option part, for 'suffixes' if (*p == '.') { buf[len++] = *p++; } while (*p != NUL && vim_strchr(sep_chars, *p) == NULL) { // Skip backslash before a separator character and space. if (p[0] == '\\' && vim_strchr(sep_chars, p[1]) != NULL) { p++; } if (len < maxlen - 1) { buf[len++] = *p; } p++; } buf[len] = NUL; if (*p != NUL && *p != ',') { // skip non-standard separator p++; } p = skip_to_option_part(p); // p points to next file name *option = p; return len; } /// Return true when 'shell' has "csh" in the tail. int csh_like_shell(void) { return strstr(path_tail(p_sh), "csh") != NULL; } /// Return true when 'shell' has "fish" in the tail. bool fish_like_shell(void) { return strstr(path_tail(p_sh), "fish") != NULL; } /// Return the number of requested sign columns, based on current /// buffer signs and on user configuration. int win_signcol_count(win_T *wp) { return win_signcol_configured(wp, NULL); } /// Return the number of requested sign columns, based on user / configuration. int win_signcol_configured(win_T *wp, int *is_fixed) { const char *scl = (const char *)wp->w_p_scl; if (is_fixed) { *is_fixed = 1; } // Note: It checks "no" or "number" in 'signcolumn' option if (*scl == 'n' && (*(scl + 1) == 'o' || (*(scl + 1) == 'u' && (wp->w_p_nu || wp->w_p_rnu)))) { return 0; } // yes or yes if (!strncmp(scl, "yes:", 4)) { // Fixed amount of columns return scl[4] - '0'; } if (*scl == 'y') { return 1; } if (is_fixed) { // auto or auto: *is_fixed = 0; } int minimum = 0, maximum = 1; if (!strncmp(scl, "auto:", 5)) { // Variable depending on a configuration maximum = scl[5] - '0'; // auto:- if (strlen(scl) == 8 && *(scl + 6) == '-') { minimum = maximum; maximum = scl[7] - '0'; } } int needed_signcols = buf_signcols(wp->w_buffer, maximum); int ret = MAX(minimum, MIN(maximum, needed_signcols)); assert(ret <= SIGN_SHOW_MAX); return ret; } /// Get window or buffer local options dict_T *get_winbuf_options(const int bufopt) FUNC_ATTR_WARN_UNUSED_RESULT { dict_T *const d = tv_dict_alloc(); for (int opt_idx = 0; options[opt_idx].fullname; opt_idx++) { struct vimoption *opt = &options[opt_idx]; if ((bufopt && (opt->indir & PV_BUF)) || (!bufopt && (opt->indir & PV_WIN))) { char_u *varp = get_varp(opt); if (varp != NULL) { if (opt->flags & P_STRING) { tv_dict_add_str(d, opt->fullname, strlen(opt->fullname), *(const char **)varp); } else if (opt->flags & P_NUM) { tv_dict_add_nr(d, opt->fullname, strlen(opt->fullname), *(long *)varp); } else { tv_dict_add_nr(d, opt->fullname, strlen(opt->fullname), *(int *)varp); } } } } return d; } /// Return the effective 'scrolloff' value for the current window, using the /// global value when appropriate. long get_scrolloff_value(win_T *wp) { // Disallow scrolloff in terminal-mode. #11915 if (State & MODE_TERMINAL) { return 0; } return wp->w_p_so < 0 ? p_so : wp->w_p_so; } /// Return the effective 'sidescrolloff' value for the current window, using the /// global value when appropriate. long get_sidescrolloff_value(win_T *wp) { return wp->w_p_siso < 0 ? p_siso : wp->w_p_siso; } Dictionary get_vimoption(String name, Error *err) { int opt_idx = findoption_len((const char *)name.data, name.size); if (opt_idx < 0) { api_set_error(err, kErrorTypeValidation, "no such option: '%s'", name.data); return (Dictionary)ARRAY_DICT_INIT; } return vimoption2dict(&options[opt_idx]); } Dictionary get_all_vimoptions(void) { Dictionary retval = ARRAY_DICT_INIT; for (size_t i = 0; options[i].fullname != NULL; i++) { Dictionary opt_dict = vimoption2dict(&options[i]); PUT(retval, options[i].fullname, DICTIONARY_OBJ(opt_dict)); } return retval; } static Dictionary vimoption2dict(vimoption_T *opt) { Dictionary dict = ARRAY_DICT_INIT; PUT(dict, "name", CSTR_TO_OBJ(opt->fullname)); PUT(dict, "shortname", CSTR_TO_OBJ(opt->shortname)); const char *scope; if (opt->indir & PV_BUF) { scope = "buf"; } else if (opt->indir & PV_WIN) { scope = "win"; } else { scope = "global"; } PUT(dict, "scope", CSTR_TO_OBJ(scope)); // welcome to the jungle PUT(dict, "global_local", BOOL(opt->indir & PV_BOTH)); PUT(dict, "commalist", BOOL(opt->flags & P_COMMA)); PUT(dict, "flaglist", BOOL(opt->flags & P_FLAGLIST)); PUT(dict, "was_set", BOOL(opt->flags & P_WAS_SET)); PUT(dict, "last_set_sid", INTEGER_OBJ(opt->last_set.script_ctx.sc_sid)); PUT(dict, "last_set_linenr", INTEGER_OBJ(opt->last_set.script_ctx.sc_lnum)); PUT(dict, "last_set_chan", INTEGER_OBJ((int64_t)opt->last_set.channel_id)); const char *type; Object def; // TODO(bfredl): do you even nocp? char_u *def_val = (char_u *)opt->def_val; if (opt->flags & P_STRING) { type = "string"; def = CSTR_TO_OBJ(def_val ? (char *)def_val : ""); } else if (opt->flags & P_NUM) { type = "number"; def = INTEGER_OBJ((Integer)(intptr_t)def_val); } else if (opt->flags & P_BOOL) { type = "boolean"; def = BOOL((intptr_t)def_val); } else { type = ""; def = NIL; } PUT(dict, "type", CSTR_TO_OBJ(type)); PUT(dict, "default", def); PUT(dict, "allows_duplicates", BOOL(!(opt->flags & P_NODUP))); return dict; }